Bacterial defense systems and methods of identifying thereof

ABSTRACT

Engineered systems comprising components of defense systems identified in prokaryotes are provided.

CROSS-REFERENCE TO RELATED APPLICATIONS

This application claims the benefit of U.S. Provisional Application No. 62/928,269, filed Oct. 30, 2019, and U.S. Provisional Application No. 63/051,161, filed Jul. 13, 2020. The entire contents of the above-identified applications are hereby fully incorporated herein by reference.

STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH

This invention was made with government support under Grant Nos. HG009761, MH110049, and HL141201 awarded by the National Institutes of Health. The government has certain rights in the invention.

REFERENCE TO AN ELECTRONIC SEQUENCE LISTING

The contents of the electronic sequence listing (“BROD-4610US_ST25.txt”; Size is 2,039,992 bytes and it was created on Oct. 30, 2020) is herein incorporated by reference in its entirety.

TECHNICAL FIELD

The subject matter disclosed herein is generally directed to bacterial defense systems and methods of identifying thereof.

BACKGROUND

To survive from attacks by viruses (e.g., phages), bacteria have developed a variety of defense systems, including proteins and nucleic acids that help recognize and eliminate foreign proteins and nucleic acids, e.g., those from the infecting phages. A number of bacteria defense systems have been discovered, many of which have been adopted and engineered to tools in biotechnology. An example is the CRISPR-Cas systems, which recognize and cleave foreign RNA or DNA in bacteria and have been developed as a powerful gene editing tool. In view of the great potential of bacterial defense systems in biotechnology and new therapeutic or diagnostic applications, there is a need for identification of novel defense systems in a high throughput manner.

SUMMARY

In one aspect, the present disclosure provides an engineered system comprising an ATPase and an adenosine deaminase. In some embodiments, the ATPase comprises a sequence of WP_012906049.1 or WP_155731552.1, and the adenosine deaminase comprises a sequence of WP_012906048.1 or WP_064360593.1. In some embodiments, the ATPase comprises 1100 or less amino acid residues. In some embodiments, the adenosine deaminase comprises 1100 or less amino acid residues. In some embodiments, the system further comprises a membrane protein. In some embodiments, the membrane protein comprises a SLATT domain or Csx27. In some embodiments, the system is configured to modify a target nucleic acid. In some embodiments, the target nucleic acid is RNA. In some embodiments, the modification of the target nucleic acid comprises causing an A to G mutation in the target nucleic acid. In some embodiments, the system further comprises one or more phage proteins. In some embodiments, the one or more phage proteins are in Tables 18A-18B.

In another aspect, the present disclosure provides an engineered system comprising one or more reverse transcriptases comprising one or more UG1, UG2, UG3, UG8, UG15, or UG16 reverse transcriptase. In some embodiments, the system comprises a first and a second reverse transcriptase. In some embodiments, the first and the second reverse transcriptases are comprised in a protein. In some embodiments, the system further comprises a SLATT domain. In some embodiments, the system further comprises a DNA polymerase. In some embodiments, the DNA polymerase is a family A DNA polymerase. In some embodiments, the system further comprises a serine protease domain linked to or associated with the reverse transcriptase. In some embodiments, the system further comprises an MBL domain. In some embodiments, the system further comprises a nitrilase. In some embodiments, the nitrilase and the one or more reverse transcriptases are comprised in a protein, and the nitrilase is at a C-terminus of the protein. In some embodiments, the system further comprises a non-coding RNA element. In some embodiments, the reverse transcriptase comprises an active site, e.g., (Y/F)×DD (SEQ ID NO: 1-2), where X is any amino acid.

In another aspect, the present disclosure provides an engineered system comprising a retron or one or more molecules encoded by the retron. In some embodiments, the retron is an Ec67 retron. In some embodiments, the retron is an Ec86 retron. In some embodiments, the retron is an Ec78 retron. In some embodiments, the retron is a Tol/interleukin 1 receptor (TIR) domain-associated retron. In some embodiments, the TIR domain has NAD+ hydrolase activity. In some embodiments, the retron is a topoisomerase-primase (TOPRIM) domain-associated retron. In some embodiments, the TOPRIM domain has nuclease activity.

In another aspect, the present disclosure provides an engineered system comprising an NTPase of a STAND (signal transduction ATPases with numerous associated domains) superfamily. In some embodiments, the system further comprises DUF4297, Mrr-like nuclease, SIR2, a trypsin-like serine protease, and/or a helical domain.

In another aspect, the present disclosure provides an engineered system comprising a von Willebrand factor (VWF), a PP2C-like serine/threonine protein phosphatase, and a serine/threonine kinase.

In another aspect, the present disclosure provides an engineered system comprising SIR2 or a function domain thereof.

In another aspect, the present disclosure provides an engineered system comprising a transmembrane ATPase.

In another aspect, the present disclosure provides an engineered system comprising an ATPase, QueC synthase, and TatD endonuclease.

In another aspect, the present disclosure provides an engineered system comprising a S8 peptidase.

In another aspect, the present disclosure provides an engineered system comprising DUF4011, a helicase, an a Vsr endonuclease.

In another aspect, the present disclosure provides an engineered system comprising a silent information regulator (SIR)2-DUF4020.

In another aspect, the present disclosure provides an engineered system comprising a Polymerase and Histidinol Phosphatase (PHP)-ATPase.

In another aspect, the present disclosure provides an engineered system comprising SIR2 and HerA.

In another aspect, the present disclosure provides an engineered system comprising DUF4297 and HerA.

In another aspect, the present disclosure provides an engineered system comprising DUF 1887.

In another aspect, the present disclosure provides an engineered system comprising DUF499, DUF3780, and DUF1156 methyltransferase and a helicase.

In another aspect, the present disclosure provides an engineered system comprising a type I-E CRISPR-associated ATPase.

In another aspect, the present disclosure provides an engineered system comprising ApeA.

In some embodiments, any one of the systems herein comprises two proteins fused together. In some embodiments, any one of the systems herein comprises one or more components in a retrotransposon system.

In another aspect, the present disclosure provides a polynucleotide comprising coding sequences for one or more proteins in the system herein.

In another aspect, the present disclosure provides a vector comprising a polynucleotide herein.

In another aspect, the present disclosure provides a cell comprising the polynucleotide herein.

In another aspect, the present disclosure provides a method of identifying a defense system in a microorganism, the method comprising: identifying genes of known defense systems in a plurality of genomes of the microorganism; recording candidate genes located within 10 kb or 10 open reading frames from the identified genes of known defense systems in the genomes; identifying homologs of each candidate gene in the genomes; and selecting candidate genes, wherein at least 10% of homologs of the candidate genes are within 5000 nucleotides or 5 genes from one or more known defense systems on the genomes.

In some embodiments, identifying genes of known defense systems comprises identifying known defense genes and filtering false positive hits among the identified known defense genes. In some embodiments, the method further comprises validating the selected candidate genes. In some embodiments, the homologs of the candidate genes share at least 70% sequence identity with the candidate genes and/or the homologs have an e-value of 10⁻⁵ or lower. In some embodiments, the recorded candidate genes are within 10 kb from the identified genes of known defense systems on the genomes. In some embodiments, at least 15% of homologs of the selected candidate genes are within 5000 nucleotides or 5 genes from one or more known defense systems on the genomes. In some embodiments, the plurality of genomes comprises at least 100,000 genomes. In some embodiments, the known defense systems comprise one or more of a CRISPR system, Type I RM and McrBC system, BREX-associated system, Zorya system, Wadjet system, Druantia-associated system, Hachiman system, Lamassu system, Thoeris-like system, Gabija system, Septu system, pAgo system, Shedu system, Kiwa system, DUF499-DUF1156 system, and Toxin/antitoxin system. In some embodiments, the microorganism is E. coli.

These and other aspects, objects, features, and advantages of the example embodiments will become apparent to those having ordinary skill in the art upon consideration of the following detailed description of illustrated example embodiments.

BRIEF DESCRIPTION OF THE DRAWINGS

An understanding of the features and advantages of the present invention will be obtained by reference to the following detailed description that sets forth illustrative embodiments, in which the principles of the invention may be utilized, and the accompanying drawings of which:

FIGS. 1A-1Y. FIG. 1A shows diagrams of exemplary identified defense system comprising reverse transcriptase and nitrilase. FIG. 1B shows diagrams of exemplary identified defense system comprising a reverse transcriptase and a nitrilase, and a topoisomerase-primase (TOPRIM). FIG. 1C shows diagrams of exemplary identified defense system comprising a reverse transcriptase and TOPRIM. FIG. 1D shows diagrams of exemplary identified defense system comprising a reverse transcriptase. FIG. 1E shows diagrams of exemplary identified defense system comprising a deaminase. FIG. 1F shows diagrams of exemplary identified defense system comprising a transmembrane ATPase. FIG. 1G shows diagrams of exemplary identified defense system comprising an ATPase, QueC synthase, and TatD endonuclease. FIG. 1H shows diagrams of exemplary identified defense system comprising a protease. FIG. 1I shows diagrams of exemplary identified defense system comprising DUF4011 domain. FIG. 1J shows diagrams of exemplary identified defense system comprising an Hsp90 ATPase and SF2-family helicase. FIG. 1K shows diagrams of exemplary identified defense system comprising trypsin-STAND. FIG. 1L shows diagrams of exemplary identified defense system comprising DUF4297-STAND and another protein. FIG. 1M shows diagrams of another exemplary identified defense system comprising DUF4297-STAND. FIG. 1N shows diagrams of exemplary identified defense system comprising a STAND ATPase. FIG. 1O shows diagrams of another exemplary identified defense system comprising Mrr-STAND. FIG. 1P shows diagrams of exemplary identified defense system comprising VWA, phosphatase, and kinase. FIG. 1Q shows diagrams of exemplary identified defense system comprising SIR2 and a DUF4020 domain. FIG. 1R shows diagrams of exemplary identified defense system comprising SIR2. FIG. 1S shows diagrams of exemplary identified defense system comprising SIR2-STAND. FIG. 1T shows diagrams of exemplary identified defense system comprising PHP-ATPase. FIG. 1U shows diagrams of exemplary identified defense system comprising SIR2 and HerA. FIG. 1V shows diagrams of exemplary identified defense system comprising DUF1887. FIG. 1W shows diagrams of exemplary identified defense system comprising a CRISPR-associated enzyme and an ATPase. FIG. 1X shows diagrams of exemplary identified defense system comprising reverse transcriptase and a protease. FIG. 1Y shows figure legends used in FIGS. 1A-1X.

FIG. 2 shows diagrams of exemplary identified defense system comprising reverse transcriptase and amidase.

FIG. 3 shows diagrams of exemplary identified defense systems that comprise reverse transcriptase.

FIG. 4 shows an exemplary method of identifying defense systems.

FIG. 5 shows another exemplary method of identifying defense systems.

FIGS. 6A-6B show the examples of the identified bacterial defense systems, their domain structures, and their effects on phage growth.

FIG. 7 shows selected identified bacterial defense systems and mutated forms, and their effects on phage growth.

FIGS. 8A-8C: Domain-independent identification of novel systems that were enriched in defense islands. (FIG. 8A) Computational pipeline to identify uncharacterized putative defense systems across all sequenced bacterial and archaeal genomes. Defense systems were identified based on de novo analysis of amino acid sequences, independent of pre-existing protein domain annotations. Histograms of defense association probabilities for (FIG. 8B) selected known systems used as control and (FIG. 8C) novel seed genes (minimum 50 identified homologs). Seeds to the right of the dashed line (0.15) were selected for further analysis.

FIGS. 9A-9B: Experimental validation of 29 novel defense gene cassettes. (FIG. 9A) Experimental validation pipeline using phage plaque assays on E. coli heterologously expressing a cloned candidate defense system. (FIG. 9B) Anti-phage activity across a diverse panel of coliphages with dsDNA, ssDNA, and ssRNA genomes (mean of n=2 replicates). Also shown is a bar graph of the abundance of each system within sequenced bacterial and archaeal genomes. See also FIGS. 12-13.

FIGS. 10A-10E: RADAR employs a divergent adenosine deaminase that edits RNA in response to phage infection. (FIG. 10A) Examples of genomic loci containing three subtypes of RADAR (standalone, Csx27-associated, and SLATT-associated). (FIG. 10B) Mutations at putative rdrA and rdrB active sites abolish activity against phage T5. (FIG. 10C) Representative RNAseq reads from E. coli expressing either RADAR or an empty vector control. (FIG. 10D) Examples of editing sites in the host and phage RNA, with identified RNA secondary structures. (FIG. 10E) Growth kinetics of RADAR-containing E. coli in comparison with an empty vector control under varying multiplicity of infection (MOI).

FIGS. 11A-11C: A diversity reverse transcriptases (RTs) mediate antiviral immunity. (FIG. 11A) Examples of genomic loci containing novel antiviral RTs. Three validated RT systems are shown (with two representative subtypes for each system). Domain architectures and component essentiality of (FIG. 11B) non-retron RTs and (FIG. 11C) retron-like RTs. See also FIG. 15.

FIG. 12: Novel defense systems with diverse domain architectures. Graphics show domains identified using HHpred, with mutations at active sites.

FIG. 13: Representative plaques for phages T3, T7, φV-1, and φX174 (n=2 replicates) on E. coli strain C, corresponding to the right panel of FIG. 9B. A total of 5×10⁶ virions were deposited per spot, and images were acquired after 68 h incubation at 37° C.

FIG. 14: Abundance of defense systems within sequenced genomes stratified by phylum. Defense system homologs were predicted using a two-step HMM-based search across all sequenced bacterial and archaeal genomes in Genbank.

FIG. 15: Anti-phage defense activity for two RT-containing systems 28 and 29 (see also FIGS. 11A-11C). Ten-fold serial dilutions of phage were spotted on a soft agar overlay containing E. coli. D313 is the putative conserved active site aspartate for the family A DNA polymerase PolA.

FIGS. 16A-16C: Domain-independent prediction of putative antiviral defense systems. (FIG. 16A) Computational pipeline to identify uncharacterized putative defense systems across all sequenced bacterial and archaeal genomes. Defense systems were predicted based on analysis of amino acid sequences, independent of domain annotations. (FIG. 16B) Histograms of defense association frequencies before filtering and after neighborhood context-based filtering (minimum 50 homologs). Seeds to the right of the dashed line (0.1) were selected for further analysis. (FIG. 16C) Pie chart of the domain diversity among predicted defense genes, based on additional analysis using HHpred against pfam domains.

FIGS. 17A-17D: Candidate defense systems exhibit antiviral activity in a heterologous system. (FIG. 17A) Experimental validation pipeline using phage plaque assays on E. coli heterologously expressing a cloned candidate defense system. Example plaques (FIG. 17B) and zones of lysis (FIG. 17C) for six candidate defense systems. (FIG. 17D) Anti-phage activity across a panel of 12 coliphages with dsDNA, ssDNA, and ssRNA genomes (mean of n=2 replicates). The bar graph shows the abundance of each system within sequenced bacterial and archaeal genomes. Domains: MTase: methyltransferase; RT: reverse transcriptase; TIR: Toll/interleukin-1 receptor homology domain; TOPRIM: topoisomerase-primase domain; QueC: 7-cyano-7-deazaguanine synthase-like domain; SIR2: sirtuin; S/T phos: serine/threonine protein phosphatase; membrane: transmembrane helix; DUF: domain of unknown function. Proposed gene names (underlined): DRT: defense-associated reverse transcriptase; RADAR: phage restriction by ADAR; AVAST: antiviral ATPase/NTPase of the STAND superfamily; drs: defense-associated sirtuin; tmn: transmembrane NTPase; qat: QueC-like associated with ATPase and TatD DNAase; hhe: HEPN, helicase, and Vsr endonuclease; mza: MutL, Z1, and AIPR; upx: uncharacterized (P)D-(D/E)-XK defense protein; ppl: polymerase/histidinol phosphatase-like.

FIGS. 18A-18F: RADAR mediates RNA editing in response to phage infection. (FIG. 18A) Examples of genomic loci containing three subtypes of RADAR (standalone, Csx27-associated, and SLATT-associated). (FIG. 18B) Essentiality of the core RADAR genes rdrAB and the accessory gene rdrD against phages T2 and T5. (FIG. 18C) Representative RNAseq reads from E. coli expressing either RADAR or an empty vector control. (FIG. 18D) Expression of phage T2 RNA relative to total host RNA in E. coli containing RADAR. Each dot represents a phage gene. Cells were infected at a multiplicity of infection (MOI) of 2. The p value was determined by a Wilcoxon signed-rank test. (FIG. 18E) Representative editing sites in the host and phage transcriptomes, with corresponding predicted RNA secondary structures. (FIG. 18F) Growth kinetics of RADAR-containing E. coli in comparison with an empty vector control under varying MOI by phage T2.

FIGS. 19A-19E: Diverse families of reverse transcriptases (RTs) mediate antiviral defense. (FIG. 19A) Examples of genomic loci containing two validated RT systems (DRT type 1 and type 3), with two representative subtypes shown for each system. (FIG. 19B) Essential components of non-retron RTs (left panel) and retrons (right panel). (FIG. 19C) Effect of defense RTs on the expression of phage T2 genes in E. coli infected at an MOI of 2. (FIG. 19D) RNAseq reads mapping to the DRT type 3 system. (FIG. 19E) Predicted secondary structure of the highly expressed non-coding RNA identified in (FIG. 19D).

FIG. 20: Domain architectures and mutational analysis of additional defense systems. Graphics show domains identified using HHpred, and stars indicate locations of active site mutations. Bar graphs (n=4 replicates per bar) show either log₁₀ fold change of efficiency of plating (for phages T2, P1, and λ) or log₂ fold change in the area of the zone of lysis (for phages T7 and φV-1) relative to the empty vector control. MBL: metallo β-lactamase; SIR2: sirtuin; HerA: helicase; QueC: 7-cyano-7-deazaguanine synthase-like domain; TatD: DNAse; vWA: von Willebrand factor type A; PHP: polymerase/histidinol phosphatase; MTase: methyltransferase; PLD: phospholipase D.

FIGS. 21A-21C: Selection of filtering thresholds for prediction of putative defense genes. Contour density plots for predicted (FIG. 21A) toxin-antitoxin/abi genes, (FIG. 21B) mobilome genes, and (FIG. 21C) CRISPR-Cas genes. Boxes indicated the parameter thresholds selected for filtering putative defense genes.

FIG. 22: Summary of tested homologs of candidate defense systems, stratified by source organism (Enterobacteriaceae vs. non-Enterobacteriaceae). Systems 1-29 correspond to the numbering in FIG. 17D.

FIG. 23: Representative zones of lysis for phages T3, T7, V-1, and X174 on E. coli strain C (n=2 replicates each), corresponding to the right panel of FIG. 2D. A total of 5×106 virions were deposited per spot.

FIG. 24: Abundance of validated defense systems within sequenced genomes, stratified by phylum. Defense system homologs were predicted using a two-step HMM-based search across all bacterial and archaeal genomes in Genbank (see Methods).

FIGS. 25A-25B: Domain and locus architecture of the RADAR deaminase. (FIG. 25A) Unrooted neighbor-joining tree of RdrB homologs with the Jukes-Cantor genetic distance model. Distinct clades of RADAR incorporate accessory membrane proteins RdrC (Csx27) or RdrD (SLATT). (FIG. 25B) RdrB contains a split deaminase domain (red) with uncharacterized insertions. Domain boundaries were predicted using HHpred. Percent identity was calculated from a multiple sequence alignment of 535 representative homologs with at most 98% pairwise similarity.

FIGS. 26A-26B: Deamination by the RADAR system occurs only on adenosines within RNA and requires both RADAR genes. (FIG. 26A) Empirical probability mass functions of editing frequency for each of the 12 possible RNA base changes, calculated using the highest-expressed mRNAs in the transcriptome of E. coli K-12 (ATCC25404) expressing the RADAR system from Citrobacter rodentium DBS100. Cells were harvested 1 hr after infection by phage T2 at an MOI of 2. (FIG. 26B) Editing frequency at a selected site within the transfer messenger RNA (tmRNA) locus (RNA or DNA). Sequences below the graphs show representative reads.

FIG. 27: RADAR preferentially deaminates adenosines within loop regions of RNA stem-loops. Predicted RNA secondary structures of the 48 highest-expressed strong RADAR editing sites (50% editing).

FIGS. 28A-28F: Effect of expression of specific phage genes on RNA editing by RADAR. (FIG. 28A) Phage genes were cloned after IPTG-inducible T7 promoter and transformed into E. coli heterologously expressing the RADAR system from Citrobacter rodentium DBS100. (FIG. 28B) Structure of E. coli transfer messenger RNA (tmRNA) (PDBID: 6Q9A), highlighting adenosines strongly edited by RADAR. (FIG. 28C) Scatter plots of RNA editing frequencies for two replicates. Each dot represents a different phage fragment. (FIG. 28D) Locations of fragments on the phage T2 genome. Each colored box represents a distinct fragment. (FIG. 28E) RNA editing frequencies of the fragments shown in (FIG. 28D) at A93 and A121 of the E. coli tmRNA. (FIG. 28F) RNA editing frequencies induced by expression of RADAR with individual genes within six of the highest-activity fragments identified in (FIG. 28D). Purple squares indicate active site mutants created by site-directed mutagenesis. dam=DNA adenine methyltransferase; a-gt: DNA alpha glucosyltransferase; gp50: head completion protein; gp2: DNA end protector protein; frd: dihydrofolate reductase; rnh: RNase H; dsbA: dsDNA binding protein; denA: endonuclease II.

FIGS. 29A-29C: Mutational analysis of three RT-containing defense systems. Active site mutations abolish defense activity against phage T5 for the (FIG. 29A) RT (UG2), (FIG. 29B) RT (UG15), and (FIG. 29C) retron+ATPase+HNH (Ec78) systems. The ATPase and HNH proteins in Ec78 comprise the Septu defense system.

FIGS. 30A-30C: The nitrilase domain of the RT (UG1) defense system forms a distinct Glade among nitrilase enzymes. (FIG. 30A) Stacked histogram of E-values of sequence-profile matches (RPSBLAST) between prokaryotic proteins in Genbank against a custom position-specific scoring matrix for the RT (UG1) nitrilase domain (minimum 20% coverage). Proteins matching a known nitrilase PSSM from the CDD database (E-value −10⁻⁶; minimum 40% coverage) are shown in green. (FIG. 30B) Unrooted neighbor-joining tree of the reverse transcriptase (RT) domain in nitrilase-associated RTs (n=588). Colors indicate distinct clades (cutoff tree distance 0.15). (FIG. 30C) Unrooted neighbor-joining tree of the nitrilase domain in proteins in (FIG. 30B) with the same color scheme (based on RT domain Glade). Also included in the tree are the non-RT-associated nitrilases (green) that are most similar to the nitrilase domain in RT (UG1) among all prokaryotic proteins.

FIG. 31: Effect of mutations in the multi-copy single-stranded DNA (msDNA) hairpin on defense activity for the Ec86 retron from E. coli BL21.

FIGS. 32A-32B: Bacterial densities over time for (FIG. 32A) retron-TIR, RT-nitrilase (UG1), and RT (UG3)+RT (UG8) defense systems infected with phage T2 and (FIG. 32B) additional defense systems infected with phage T7.

FIGS. 33A-33C: Phage and prophage association frequencies for validated defense system clusters. (FIG. 33A) Overall association frequency for 28 defense systems in this study. The rexA immunity gene from phage lambda is shown in red. (FIG. 33B) Per-system analysis of the distribution of phage association frequencies for each associated cluster in (FIG. 33A). (FIG. 33C) Example of the transmembrane ATPase located within an incomplete prophage.

The figures herein are for illustrative purposes only and are not necessarily drawn to scale.

DETAILED DESCRIPTION OF THE EXAMPLE EMBODIMENTS General Definitions

Unless defined otherwise, technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this disclosure pertains. Definitions of common terms and techniques in molecular biology may be found in Molecular Cloning: A Laboratory Manual, 2^(nd) edition (1989) (Sambrook, Fritsch, and Maniatis); Molecular Cloning: A Laboratory Manual, 4^(th) edition (2012) (Green and Sambrook); Current Protocols in Molecular Biology (1987) (F. M. Ausubel et al. eds.); the series Methods in Enzymology (Academic Press, Inc.): PCR 2: A Practical Approach (1995) (M. J. MacPherson, B. D. Hames, and G. R. Taylor eds.): Antibodies, A Laboratory Manual (1988) (Harlow and Lane, eds.): Antibodies A Laboratory Manual, 2^(nd) edition 2013 (E. A. Greenfield ed.); Animal Cell Culture (1987) (R. I. Freshney, ed.); Benjamin Lewin, Genes IX, published by Jones and Bartlet, 2008 (ISBN 0763752223); Kendrew et al. (eds.), The Encyclopedia of Molecular Biology, published by Blackwell Science Ltd., 1994 (ISBN 0632021829); Robert A. Meyers (ed.), Molecular Biology and Biotechnology: a Comprehensive Desk Reference, published by VCH Publishers, Inc., 1995 (ISBN 9780471185710); Singleton et al., Dictionary of Microbiology and Molecular Biology 2^(nd) ed., J. Wiley & Sons (New York, N.Y. 1994), March, Advanced Organic Chemistry Reactions, Mechanisms and Structure 4th ed., John Wiley & Sons (New York, N.Y. 1992); and Marten H. Hofker and Jan van Deursen, Transgenic Mouse Methods and Protocols, 2^(nd) edition (2011).

As used herein, the singular forms “a”, “an”, and “the” include both singular and plural referents unless the context clearly dictates otherwise.

The term “optional” or “optionally” means that the subsequent described event, circumstance or substituent may or may not occur, and that the description includes instances where the event or circumstance occurs and instances where it does not.

The recitation of numerical ranges by endpoints includes all numbers and fractions subsumed within the respective ranges, as well as the recited endpoints.

The term “about” in relation to a reference numerical value and its grammatical equivalents as used herein can include the numerical value itself and a range of values plus or minus 10% from that numerical value. For example, the amount “about 10” includes 10 and any amounts from 9 to 11. For example, the term “about” in relation to a reference numerical value can also include a range of values plus or minus 10%, 9%, 8%, 7%, 6%, 5%, 4%, 3%, 2%, or 1% from that value. As used herein, a “biological sample” may contain whole cells and/or live cells and/or cell debris. The biological sample may contain (or be derived from) a “bodily fluid”. The present invention encompasses embodiments wherein the bodily fluid is selected from amniotic fluid, aqueous humour, vitreous humour, bile, blood serum, breast milk, cerebrospinal fluid, cerumen (earwax), chyle, chyme, endolymph, perilymph, exudates, feces, female ejaculate, gastric acid, gastric juice, lymph, mucus (including nasal drainage and phlegm), pericardial fluid, peritoneal fluid, pleural fluid, pus, rheum, saliva, sebum (skin oil), semen, sputum, synovial fluid, sweat, tears, urine, vaginal secretion, vomit and mixtures of one or more thereof. Biological samples include cell cultures, bodily fluids, cell cultures from bodily fluids. Bodily fluids may be obtained from a mammal organism, for example by puncture, or other collecting or sampling procedures.

The terms “subject,” “individual,” and “patient” are used interchangeably herein to refer to a vertebrate, preferably a mammal, more preferably a human. Mammals include, but are not limited to, murines, simians, humans, farm animals, sport animals, and pets. Tissues, cells and their progeny of a biological entity obtained in vivo or cultured in vitro are also encompassed.

The term “exemplary” is used herein to mean serving as an example, instance, or illustration. Any aspect or design described herein as “exemplary” is not necessarily to be construed as preferred or advantageous over other aspects or designs. Rather, use of the word exemplary is intended to present concepts in a concrete fashion.

As used herein, when an enzyme is mentioned, the term also includes a functional domain of the enzyme. For example, a reverse transcriptase may refer to a reverse transcriptase protein or a reverse transcriptase domain.

A protein or nucleic acid derived from a species means that the protein or nucleic acid has a sequence identical to an endogenous protein or nucleic acid or a portion thereof in the species. The protein or nucleic acid derived from the species may be directly obtained from an organism of the species (e.g., by isolation), or may be produced, e.g., by recombination production or chemical synthesis.

Various embodiments are described hereinafter. It should be noted that the specific embodiments are not intended as an exhaustive description or as a limitation to the broader aspects discussed herein. One aspect described in conjunction with a particular embodiment is not necessarily limited to that embodiment and can be practiced with any other embodiment(s). Reference throughout this specification to “one embodiment”, “an embodiment,” “an example embodiment,” means that a particular feature, structure or characteristic described in connection with the embodiment is included in at least one embodiment of the present invention. Thus, appearances of the phrases “in one embodiment,” “in an embodiment,” or “an example embodiment” in various places throughout this specification are not necessarily all referring to the same embodiment, but may. Furthermore, the particular features, structures or characteristics may be combined in any suitable manner, as would be apparent to a person skilled in the art from this disclosure, in one or more embodiments. Furthermore, while some embodiments described herein include some but not other features included in other embodiments, combinations of features of different embodiments are meant to be within the scope of the invention. For example, in the appended claims, any of the claimed embodiments can be used in any combination.

All publications, published patent documents, and patent applications cited herein are hereby incorporated by reference to the same extent as though each individual publication, published patent document, or patent application was specifically and individually indicated as being incorporated by reference.

Overview

The present disclosure provides various types of bacterial defense systems and the methods of identifying thereof. In some aspects, the present disclosure includes a number of newly identified defense systems. In some embodiments, the systems may be engineered, e.g., to have a desired activity or function. The engineered systems may be used as tools (e.g., to manipulate expression and/or activity of target genes or proteins) in biotechnology and medical applications. In one example, the system comprises an ATPase and an adenosine deaminase. Such system may be engineered to function as a base editor for gene editing applications. In another example, the system comprises one or more reverse transcriptases. In another example, the system comprises a retron or one or more molecules encoded by the retron. In another example, the system comprises an NTPase of a STAND (signal transduction ATPases with numerous associated domains) superfamily.

In another aspect, the present disclosure includes methods of identifying novel defense systems. In general, the methods are based on the fact that defense systems are often clustered in bacterial genomes. In some embodiments, the methods comprise identifying genes of known defense systems in a plurality of genomes of a bacterial species, identifying homolog genes close (e.g., within 10 kb) of the known defense systems, and selecting candidate genes among these homologs. For example, candidate genes may be selected when at least 10% of homologs of the genes are within 5000 nucleotides or 5 genes from one or more defense systems.

Defense Systems

In one aspect, the present disclosure provides defense systems in prokaryotes such as bacteria. The defense systems may include proteins and nucleic acids that play roles in the defense of virus and other foreign organisms' attack and invasion. The present disclosure also includes nucleic acids encoding the components of the defense systems and vectors comprising such nucleic acids. The functions and applications of the defense systems herein are not limited to defending bacteria from foreign organisms (e.g., virus). Rather the defense systems may be used in various applications, e.g., as research tools and reagents, therapeutic agents, and diagnostic agents. In some cases, a defense system may be engineered to have a desired function. Such engineered defense system may not have a function related to defending bacteria from foreign organisms.

The defense systems provided herein may be of various types. These defense systems may comprise one or more enzymes that can manipulate (e.g., cleave, eliminate, degrade, etc.) the proteins and nucleic acids from the foreign organisms. In some examples, a host cell with the defense system may be resistant to foreign organism attacks. The term “resistance” to, for example, foreign nucleic acid invasion, encompasses a decrease in activity (e.g. phage genomic replication, phage lysogeny, circularization of phage genome) in bacteria expressing a functional defense system in comparison to bacteria of the same species under the same developmental stage (e.g. culture state) which does not express a functional defense system. According to specific embodiments the decrease provided by such resistance to foreign organism invasion is at least 1.5-fold, at least 2-fold, at least 3-fold, at least 5-fold, at least 10-fold, or at least 20-fold as compared to same in the absence of the functional defense system.

In some embodiments, the defense systems have an anti-phage activity. The term “anti-phage activity” or “resistant to infection by at least one phage” may encompasses an activity providing increased resistance of a host cell to infection by at least one phage in comparison to the host cell of the same species under the same developmental stage (e.g. culture state) which does not express the functional defense system. In some embodiments, a host cell may comprise a microbial cell. In some embodiments, a host comprises a bacterium. Anti-phage activity or resistance of a host cell to infection by at least one phage may be determined by, for example but not limited to, bacterial viability, phage lysogeny, phage genomic replication or phage genomic degradation, or a combination thereof.

In some embodiments, the defense systems may provide a host cell with resistance to foreign nucleic acid invasion. In some embodiments, a defense system described herein, provides the host cell with resistance to a foreign nucleic acid invasion, wherein the foreign nucleic acid invasion comprises resistance to at least one phage infection, or resistance to plasmid transformation, or a combination of resistance to at least one phage infection and resistance to plasmid transformation. In some embodiments, it is the combination of defense systems that provides a host cell with resistance to a foreign nucleic acid invasion. One skilled in the art would appreciate that defense against a foreign nucleic acid invasion may encompass, defending against entry of a foreign nucleic acid into the host cell, as well as, defending against the actions of a foreign nucleic acid that has entered the host cell. In some embodiments, defense against a foreign nucleic acid invasion comprises defense from phage infection. In some embodiments, defense against a foreign nucleic acid invasion comprises defense from plasmid transformation. In some embodiments, defense against a foreign nucleic acid invasion comprises defense against entry of a conjugative element. In some embodiments, defense against a foreign nucleic acid invasion comprises defense against any combination of phage infection, plasmid transformation, and entry of a conjugative element.

In some embodiments, the components in the system may be heterologous, i.e., they do not naturally occur together in the same cell or an organism.

The components in a system herein may be derived from the same or different prokaryotes. In some cases, the components may be engineered to be optimized for expressing in eukaryotic (e.g., mammalian) cells.

Gene Clusters

In some embodiments, the components of a defense system may be in a gene cluster in a prokaryotic cell. The terms “gene cluster”, “cassette of genes”, “cassette”, and “components of a system”, may in some embodiments herein be used interchangeably having all the same meanings and qualities. In some embodiments, each gene of a “cassette of genes” comprises a nucleic acid sequence encoding a polypeptide component of the defense system. In some embodiments, a “cassette of genes” comprises nucleic acid sequences encoding components of the defense system including open reading frames encoding defense system polypeptide components, regulatory sequences, and non-coding RNAs. A skilled artisan would appreciate that a “cassette of genes” may encompass an operon. In some embodiments, a cassette of genes comprises regulatory sequences. In some embodiments, a cassette of gene comprises non-coding RNAs.

Host Cells

The defense systems may be from or originate from microorganisms such as bacteria or archaea. In some embodiments, the defense may be from or originate from bacteria. As used herein, when a defense system originates form a species, it may be the wild type defense system in the species, or a homolog of the wild type defense system in the species. The defense system that is a homolog of the wild type defense system in the species may comprise one or more variations (e.g., mutations, truncations, etc.) of the wild type defense system. The terms “ortholog” and “homolog” are well known in the art. By means of further guidance, a “homolog” of a protein as used herein is a protein of the same species which performs the same or a similar function as the protein it is a homolog of. Homologous proteins may but need not be structurally related, or are only partially structurally related. An “ortholog” of a protein as used herein is a protein of a different species which performs the same or a similar function as the protein it is an ortholog of. Orthologous proteins may but need not be structurally related, or are only partially structurally related. Homologs and orthologs may be identified by homology modelling (see, e.g., Greer, Science vol. 228 (1985) 1055, and Blundell et al. Eur J Biochem vol 172 (1988), 513) or “structural BLAST” (Dey F, Cliff Zhang Q, Petrey D, Honig B. Toward a “structural BLAST”: using structural relationships to infer function. Protein Sci. 2013 April; 22(4):359-66. doi: 10.1002/pro.2225.). See also Shmakov et al. (2015) for application in the field of CRISPR-Cas loci. Homologous proteins may but need not be structurally related, or are only partially structurally related.

In some example, the host cells are E coli. In some embodiments, the bacteria may be gram positive bacteria. The term “Gram-positive bacteria” as used herein refers to bacteria characterized by having as part of their cell wall structure peptidoglycan as well as polysaccharides and/or teichoic acids and are characterized by their blue-violet color reaction in the Gram-staining procedure. Representative Gram-positive bacteria include: Actinomyces spp., Bacillus anthracis, Bifidobacterium spp., Clostridium botulinum, Clostridium perfringens, Clostridium spp., Clostridium tetani, Corynebacterium diphtherias, Corynebacterium jeikeium, Enterococcus faecalis, Enterococcus faecium, Erysipelothrix rhusiopathiae, Eubacterium spp., Gardnerella vaginalis, Gemella morbillorum, Leuconostoc spp., Mycobacterium abcessus, Mycobacterium avium complex, Mycobacterium chelonae, Mycobacterium fortuitum, Mycobacterium haemophilium, Mycobacterium kansasii, Mycobacterium leprae, Mycobacterium marinum, Mycobacterium scrofulaceum, Mycobacterium smegmatis, Mycobacterium terrae, Mycobacterium tuberculosis, Mycobacterium ulcerans, Nocardia spp., Peptococcus niger, Peptostreptococcus spp., Proprionibacterium spp., Staphylococcus aureus, Staphylococcus auricularis, Staphylococcus capitis, Staphylococcus cohnii, Staphylococcus epidermidis, Staphylococcus haemolyticus, Staphylococcus hominis, Staphylococcus lugdanensis, Staphylococcus saccharolyticus, Staphylococcus saprophyticus, Staphylococcus schleiferi, Staphylococcus similans, Staphylococcus warneri, Staphylococcus xylosus, Streptococcus agalactiae (group B streptococcus), Streptococcus anginosus, Streptococcus bovis, Streptococcus canis, Streptococcus equi, Streptococcus milleri, Streptococcus mitior, Streptococcus mutans, Streptococcus pneumoniae, Streptococcus pyogenes (group A streptococcus), Streptococcus salivarius, and Streptococcus sanguis.

In some embodiments, the term “Gram-negative bacteria” as used herein refer to bacteria characterized by the presence of a double membrane surrounding each bacterial cell. Representative Gram-negative bacteria include Acinetobacter calcoaceticus, Actinobacillus actinomycetemcomitans, Aeromonas hydrophila, Alcaligenes xylosoxidans, Bacteroides, Bacteroides fragilis, Bartonella bacilliformis, Bordetella spp., Borrelia burgdorferi, Branhamella catarrhalis, Brucella spp., Campylobacter spp., Chalmydia pneumoniae, Chlamydia psittaci, Chlamydia trachomatis, to Chromobacterium violaceum, Citrobacter spp., Eikenella corrodens, Enterobacter aerogenes, Escherichia coli, Flavobacterium meningosepticum, Fusobacterium spp., Haemophilus influenzae, Haemophilus spp., Helicobacter pylori, Klebsiella spp., Legionella spp., Leptospira spp., Moraxella catarrhalis, Morganella morganii, Mycoplasma pneumoniae, Neisseria gonorrhoeae, Neisseria meningitidis, Pasteurella multocida, Plesiomonas shigelloides, Prevotella spp., Proteus spp., Providencia rettgeri, Pseudomonas aeruginosa, Pseudomonas spp., Rickettsia prowazekii, Rickettsia rickettsii, Rochalimaea spp., Salmonella spp., Salmonella typhi, Serratia marcescens, Shigella spp., Treponema carateum, Treponema pallidum, Treponema pallidum endemicum, Treponema pertenue, Veillonella spp., Vibrio cholerae, Vibrio vulnificus, Yersinia enterocolitica, and Yersinia pestis.

Examples of Systems

A system provided herein may include one or more enzymes or functional protein domains, and/or polynucleotides encoding thereof. The systems may comprise one or more wild type proteins and/or polynucleotides. In certain cases, the systems may be engineered systems, e.g., comprising one or more mutations or variants compared to corresponding wild type counterparts.

In some embodiments, the systems herein may be configured to modify a nucleic acid, e.g., DNA, RNA, or a hybrid or duplex of RNA and DNA. In one example, the systems may be configured to modify RNA.

The systems and components thereof may be or share sequence homology (e.g., sequence identity) with the example systems and components herein. In some embodiments, the systems or components thereof may share at least 50%, at least 60%, at least 70%, at least 80%, at least 90%, at least 95%, at least 99%, or 100% sequence homology (e.g., sequence identity) with the example systems or components herein.

Systems Comprising ATPase and Adenosine Deaminase

In some examples, the systems comprise an ATPase and an adenosine deaminase. The ATPase may be a KAP-family ATPase. In some cases, the ATPase may comprise 1500 or less, e.g., 1400 or less, 1300 or less, 1200 or less, 1100 or less, 1000 or less, 950 or less, 900 or less, 850 or less, 800 or less, 750 or less, 700 or less, 650 or less, 600 or less, 500 or less, 400 or less, 300 or less, 200 or less, 100 or less amino acid residues. In one example, the ATPase may comprise 1000 or less amino acid residues. In certain examples, the ATPase may comprise 900 or less amino acid residues. In some cases, the adenosine deaminase may comprise 1500 or less, e.g., 1400 or less, 1300 or less, 1200 or less, 1100 or less, 1000 or less, 950 or less, 900 or less, 850 or less, 800 or less, 750 or less, 700 or less, 650 or less, 600 or less, 500 or less, 400 or less, 300 or less, 200 or less, 100 or less amino acid residues. In one example, the adenosine deaminase may comprise 1000 or less amino acid residues. In certain examples, the adenosine deaminase may comprise 900 or less amino acid residues.

In some examples, the system comprises an ATPase that is or share at least 50%, at least 60%, at least 70%, at least 80%, at least 90%, at least 95%, at least 99%, or 100% sequence homology (e.g., sequence identity) with the sequence of WP_012906049.1 and a adenosine deaminase that is or share at least 50%, at least 60%, at least 70%, at least 80%, at least 90%, at least 95%, at least 99%, or 100% sequence homology (e.g., sequence identity) with the sequence of WP_012906048.1. In some examples, the system comprises an ATPase that is or share at least 50%, at least 60%, at least 70%, at least 80%, at least 90%, at least 95%, at least 99%, or 100% sequence homology (e.g., sequence identity) with the sequence of WP_155731552.1 and a adenosine deaminase that is or share at least 50%, at least 60%, at least 70%, at least 80%, at least 90%, at least 95%, at least 99%, or 100% sequence homology (e.g., sequence identity) with the sequence of WP_064360593.1.

In some embodiments, the system comprising ATPase and an adenosine deaminase may further comprise one or more proteins or polypeptide domains. In some examples, the system may further comprise a membrane protein or domain. In certain examples, the system further comprises a SMODS and LOG-Smf/DprA-Associating Two TM (SLATT) domain. In certain examples, the system further comprises a CRISPR ancillary protein. The type VI-B CRISPR ancillary protein, e.g., Csx27.

In some embodiments, the systems may be engineered to function as a base editor in gene editing applications. For example, the systems may modify a nucleic acid. The modification may cause an A to G mutation in a nucleic acid. In some cases, the systems may modify RNA. In some cases, the systems may modify DNA.

In some embodiments, the adenosine deaminase may be those described in International Patent Publication Nos. WO2019071048, WO2019084063, WO2019126716, WO2019126709, WO2019126762, and WO2019126774; Cox DBT, et al., RNA editing with CRISPR-Cas13, Science. 2017 Nov. 24; 358(6366):1019-1027; Abudayyeh 00, et al., A cytosine deaminase for programmable single-base RNA editing, Science 26 Jul. 2019: Vol. 365, Issue 6451, pp. 382-386; Gaudelli N M et al., Programmable base editing of A⋅T to G⋅C in genomic DNA without DNA cleavage, Nature volume 551, pages 464-471 (23 Nov. 2017); Komor A C, et al., Programmable editing of a target base in genomic DNA without double-stranded DNA cleavage. Nature. 2016 May 19; 533(7603):420-4, or any variants, homologs, or orthologs thereof.

In some embodiments, the system further comprise one or more phage proteins. Examples of phage proteins include those in Tables 18A-18B.

Systems Comprising Reverse Transcriptase(s)

In some examples, the systems herein comprise one or more reverse transcriptases. A reverse transcriptase refers to an enzyme capable of synthesizing DNA strand (e.g., complementary DNA or cDNA) using RNA as a template. In some embodiments, the reverse transcriptase is error prone. For example, the reverse transcriptase may have low proof-reading ability. For example, the reverse transcriptase may introduce one or more errors (i.e., nucleotides that are not complementary to the corresponding nucleotides on the template). Examples of reverse transcriptases include the transcriptases from Vibrio harveyi ML phage, Bifidobacterium longum, Bacteroides thetaiotaonicron, Treponema denticola, cyanobacteria, such as Trichodesmium erythrism, the genus Nostoc, or Nostoc punctiforme.

As used herein, the reverse transcriptase may be full-length reverse transcriptase or a functional fragment thereof. A functional fragment of a full-length reverse transcriptase may be a polypeptide that is shorter than the full-length reverse transcriptase but has reverse transcriptase activity. For example, a functional fragment of a full-length reverse transcriptase may have at least about 50%, at least about 60%, at least about 70, % at least about 80%, at least about 90%, at least about 95%, at least about 99%, or at least about 100% of the activity of the corresponding reverse transcriptase. The reverse transcriptase activity may be measured as amount of cDNA generated with certain amount of RNA template.

For example, the systems may comprise a first reverse transcriptase and a second reverse transcriptase. The first and the second reverse transcriptases may be comprised in the same protein. The first and the second reverse transcriptase may be the same. In certain cases, the first and the second reverse transcriptase may be the different. The reverse transcriptase may be error prone.

Examples of reverse transcriptases include UG1, UG2, UG3, UG8, UG15, or UG16 reverse transcriptases. In some examples, the system comprises an UG1 reverse transcriptase that is or share at least 50%, at least 60%, at least 70%, at least 80%, at least 90%, at least 95%, at least 99%, or 100% sequence homology (e.g., sequence identity) with the sequence of WP_115196278.1. In some examples, the system comprises an U2 reverse transcriptase that is or share at least 50%, at least 60%, at least 70%, at least 80%, at least 90%, at least 95%, at least 99%, or 100% sequence homology (e.g., sequence identity) with the sequence of WP_012737279.1. In some examples, the system comprises an UG3 reverse transcriptase that is or share at least 50%, at least 60%, at least 70%, at least 80%, at least 90%, at least 95%, at least 99%, or 100% sequence homology (e.g., sequence identity) with the sequence of 087902017.1 and an U8 reverse transcriptase that is or share at least 50%, at least 60%, at least 70%, at least 80%, at least 90%, at least 95%, at least 99%, or 100% sequence homology (e.g., sequence identity) with the sequence of WP_062891751.1. In some examples, the system comprises an UG15 reverse transcriptase that is or share at least 50%, at least 60%, at least 70%, at least 80%, at least 90%, at least 95%, at least 99%, or 100% sequence homology (e.g., sequence identity) with the sequence of GCK53192.1. In some examples, the system comprises an UG16 reverse transcriptase that is or share at least 50%, at least 60%, at least 70%, at least 80%, at least 90%, at least 95%, at least 99%, or 100% sequence homology (e.g., sequence identity) with the sequence of WP_001524904.1.

In some examples, the systems comprising one or more reverse transcriptases may further comprise one or more proteins or polypeptide domains. In some examples, the systems further comprise a Cas protein, e.g., Cas1. In some examples, the systems further comprise Abi. In some examples, the systems further comprise a nitrilase-family C—N hydrolase. In some examples, the systems further comprise a DNA polymerase. The DNA polymerase may be a family A DNA polymerase. In some examples, the systems further comprise a nitrilase. In some examples, the systems comprise a protein comprising one or more reverse transcriptases and a nitrilase domain. The nitrilase domain may be at the C-terminus of the protein. In some examples, the systems further comprise a topoisomerase-primase (TOPRIM), and a nitrilase. In some examples, the systems further comprise a Tol/interleukin 1 receptor (TIR). In some examples, the systems further comprise a protease. The systems may further comprise a serine protease domain linked to or associated with the reverse transcriptase. In some examples, the systems further comprise an integrase. In some examples, the systems further comprise a transposase. In some examples, the systems further comprise an MBL domain.

In some cases, the system may comprise a polynucleotide encoding the reverse transcriptase. In certain examples, the polynucleotide comprising the variable region and/or the template region may comprise a coding sequence for the reverse transcriptase. In some examples, the polynucleotide encoding the reverse transcriptase may be different from the polynucleotide comprising the variable region and/or the template region.

In some embodiments, the reverse transcriptase comprises an active site, e.g., (Y/F)×DD (SEQ ID NOs: 1-2), where X is any amino acid.

Systems Comprising Retrons or Molecules Encoded by Retrons

In some examples, the systems herein comprise one or more retrons or molecules encoded by retrons. As used herein, a retron refers to a genetic element (e.g., a DNA molecule) which encodes components enabling the synthesis of branched RNA-linked single stranded DNA (msDNA) and a reverse transcriptase. Molecules encoded by retrons includes retron msr RNA that is the non-coding RNA produced by retron elements and is the immediate precursor to the synthesis of msDNA. Molecules encoded by retrons also include the reverse transcriptase and the corresponding RNA (e.g., mRNA).

In some examples, the retron is Ec67 retron. In some examples, the retron is Ec86 retron. In some examples, the retron is Ec78 retron. In some examples, the retron is TIR domain-associated retron. The TIR domain may have NAD+ hydrolase activity. In some examples, the retron is TOPRIM domain-associated retron. The TOPRIM domain may have nuclease activity.

Systems Comprising STAND NTPase

In some examples, the systems herein comprise one or more NTPases of a STAND (signal transduction ATPases with numerous associated domains) superfamily. In some examples, the systems comprising the NTPase may further comprise one or more proteins or polypeptide domains, such as DUF4297, Mrr-like nuclease, SIR2, a trypsin-like serine protease, and/or a helical domain.

Additional Examples of Systems

In some examples, the system may comprise a von Willebrand factor (VWF), a PP2C-like serine/threonine protein phosphatase, and a serine/threonine kinase. In some examples, the system may comprise SIR2 or a function domain thereof.

In some examples, the system may comprise a reverse transcriptase and a nitrilase. In some examples, the system may comprise a reverse transcriptase and a nitrilase, and a topoisomerase-primase (TOPRIM). In some examples, the system may comprise a reverse transcriptase and TIR. In some examples, the system may comprise an Ec67 retron. In some examples, the system may comprise Ec86 retron. In some examples, the system may comprise a reverse transcriptase. In some examples, the system may comprise two reverse transcriptases. In some examples, the system may comprise adenosine deaminase. In some examples, the system may comprise KAP ATPase. In some examples, the system may comprise KAP TatD. In some examples, the system may comprise a transmembrane ATPase. In some examples, the system may comprise an ATPase, QueC synthase, and TatD endonuclease. In some examples, the system may comprise S8 peptidase. In some examples, the system may comprise a DFU4011 domain. In some examples, the system may comprise a DFU4011 domain, a helicase, and a Vsr endonuclease. In some examples, the system may comprise a DUF3684 Hsp90-like ATPase and a helicase. In some examples, the system may comprise Trypsin-AAA35. In some examples, the system may comprise DUF4297-AAA3 and another protein. In some examples, the system may comprise DUF4297-AAA35. In some examples, the system may comprise AAA35. In some examples, the system may comprise RE-AAA35. In some examples, the system may comprise VWA and phosphatase and a kinase. In some examples, the system may comprise SIR2-DUF4020. In some examples, the system may comprise SIR2-STAND-TPR. In some examples, the system may comprise Polymerase and Histidinol Phosphatase (PHP)-ATPase. In some examples, the system may comprise PHP-SMC. In some examples, the system may comprise SIR2 and HerA. In some examples, the system may comprise DUF4297 and HerA. In some examples, the system may comprise Unknown-DUF1887. In some examples, the system may comprise DUF262 and DUF262-HNH. In some examples, the system may comprise DUF499, DUF3780, DUF1156 methyltransferase, and helicase. In some examples, the system may comprise Type I-E CRISPR-associated protein. In some examples, the system may comprise RT-protease. In some examples, the system may comprise ApeA.

Details of these systems are shown in Tables 1, 2, 5, 6, 9, 10, 12, 13, 15A, and 16A. Sequences of example systems are shown in Tables 6, 12, 15A, 15B, 15C, 16A, and 16B.

TABLE 1 # genes in Construct operon Short Description Donor Strain Diagram File Name Note pLG018 1 RT-nitrilase Klebsiella pneumoniae pLG018_RT-nitrilase UG1/UG6 in Zimmerly & NCTC9143 Wang (2015) pLG022 1 TOPRIM-RT-nitrilase Vogesella indigofera pLG022_TOPRIM- UG10 in Zimmerly & Wang DSM3303 RT-nitrilase (2015) pLG024 1 RT-TIR Shigella dysenteriae — Novel retron NCTC2966 pLG026 1 Ec67 retron Escherichia coli pLG026_RT-TOPRIM Ec67 retron (reported in NCTC8623 (retron Lampson et al. Science 1989; function unknown until present study) pLG199 1 Ec86 retron Escherichia coli BL21 — Ec86 retron (reported in Lim et al. Cell 1989; function unknown until present study) pLG028 1 RT Escherichia coli pLG028_RT 21-C8-A pLG125 2 RT-x2 Escherichia coli — Two RTs acting in concert; ECOR12 UG3/UG8 in Zimmerly & Wang (2015) pLG032 2 Adenosine deaminase Citrobacter rodentium pLG032_Deaminase ATPase + highly divergent DBS100 adenosine deaminase pLG034 1 KAP ATPase Escherichia coli pLG034_KAP- Large transmembrane ECOR25 transmembrane ATPase; described computationally in Aravind et al. Genome Biol (2004) pLG037 4 KAP_TatD Escherichia coli pLG037_KAP Described computationally in NCTC9009 Aravind et al. Genome Biol (2004) pLG039 2 S8 peptidase Escherichia coli pLG039_Protease Proteasome-like ATPase + ECOR52 serine protease pLG041 1 DUF4011 Escherichia coli pLG041_DUF4011 ATCC43886 pLG044 2 DUF3684 Hsp90-like Vibrio harveyi pLG044_Hsp90 Large gene (~2500aa) with ATPase + helicase ATCC43516 large stretches of unknown regions; associated with a helicase pLG046 3 Trypsin-AAA35 Erwinia pLG046_Protease- STAND ATPase (these are piriflorinigrans STAND not typically thought to be CFBP5888 defensive) pLG049 2 DUF4297-AAA3 + Salmonella enterica pLG049_DUF4297- STAND ATPase unknown NCTC13175 STAND pLG050 1 DUF4297-AAA35 Salmonella enterica pLG050_DUF4297- STAND ATPase NCTC10718 STAND pLG051 1 AAA35 Escherichia coli pLG051_STAND STAND ATPase NCTC9087 pLG053 1 RE-AAA35 Escherichia coli pLG053_STAND STAND ATpase NCTC11132 pLG056 3 VWA + phosphatase + Escherichia coli pLG056_VWA_ kinase NCTC9094 phophatase_kinase pLG061 1 SIR2-DUF4020 Escherichia coli pLG061_SIR2- NCTC9112 DUF4020 pLG062 1 SIR2 Cronobacter sakazakii pLG062_SIR2 NCTC8155 pLG063 1 SIR2-STAND-TPR Escherichia coli pLG063_SIR2- STAND ATpase NCTC13384 STAND pLG066 1 PHP-SMC Escherichia coli pLG066_ NCTC8620 Phosphoesterase (PHP)-SMC pLG070 2 SIR2 + HerA Escherichia coli pLG070_HerA Modular system (HerA pump NCTC11129 can be paired with SIR2, DUF4297, etc.) pLG071 2 DUF4297 + HerA Escherichia coli pLG070_HerA Modular system (HerA pump NCTC11131 can be paired with SIR2, DUF4297, etc.) pLG080 1 Unknown-DUF1887 Salmonella enterica pLG080_DUF1887 ~1200aa gene; first ~1000aa NCTC6026 are unknown pLG157 2 DUF262 + Escherichia coli — Described computationally DUF262-HNH ATCC43886 in Makarova et al. 2011 pLG078 4 DUF499 + DUF3780 + Escherichia coli — Restriction-modification-like DUF1156 ECOR58 system described methyltransferase + computationally in helicase Anantharaman et al. 2013

TABLE 2 # genes in Donor Diagram Construct operon Short Description Strain File Name Note — 6 Type I-E CRISPR- — CRISPR_ATPase Described computationally in Shmakov associated et al. PNAS 2017; predicted to be non- defense — 1 RT-protease — RT-protease Retron; described computationally in Zimmerly & Wang (2015)

FIGS. 1A-1Y, 2, and 3 show diagrams of domain structures of exemplary defense systems.

Additional Exemplary Systems

Additional examples of systems are shown in Tables 3A-3B below.

TABLE 3A Row # No. Vector System System details genes Organism Strain bp Note Source 1 pLG003 Control BREX type I 6 E. coli NCTC9078 13703 Goldfarb et al. (DSM5212) 2014 2 pLG004 Control Druantia type I 5 E. coli NCTC9078 11823 Doron et al. (DSM5212) Science 2018 3 pLG005 Control Type I RM 3 E. coli NCTC13846 6946 bloodculture, (DSM105182) human bacteraemia, UK 4 pLG006 Control Zorya type II 3 E. coli ATCC8739 3917 Doron et al. Feces Science 2018 5 pLG007 Control RT-AbiA 1 E. coli ECOR30 1921 Odegrip et al. Bison, Alberta, (ATCC35349) 2006 Canada 6 pLG008 Control RT-AbiK 1 Lactococcus W-1 2102 Wang et al. lactis NAR 2011 7 pLG009 RT RT-protease 1 Stenotrophomonas TG_2005 maltophilia 8 pLG010 RT RT-protease 1 Haematobacter KC2145 massiliensis 9 pLG011 RT RT-protease 1 Sphingobium ATCC51230 2029 clinical yanoikuyae (DSM7462) specimen 10 pLG012 RT RT-protease 1 Proteus mirabilis 127_PMIR 2009 11 pLG013 RT RT-protease 1 Pseudomonas PA-W9 aeruginosa 12 pLG014 RT RT-protease 1 Photobacterium NCTC11646 2657 human, leg damselae wound 13 pLG015 RT RT-protease 1 Paraburkholderia PSCR-88 silvatlantica 14 pLG016 RT RT-protease 1 Bacillus subtilis ATCC13952 2203 15 pLG017 RT RT-kinase- 1 E. coli N1 4154 nitrilase 16 pLG018 RT RT-kinase- 1 Klebsiella NCTC9143 5272 SLATT Urine nitrilase pneumoniae associated 17 pLG019 RT RT-nitrilase 1 E. coli NCTC4169 3679 human, excreta 18 pLG020 RT RT-nitrilase 1 Klebsiella KPNIH39 3479 uterine pneumoniae secretion 19 pLG021 RT TOPRIM-RT- 1 Pseudomonas DSM16299 8446 rhizosphere nitrilase rhizosphaerae of grasses 20 pLG108 RT TOPRIM-RT- 1 Vogesella DSM3303 Garden soil, nitrilase indigofera Pacific Grove California 21 pLG023 RT RT-TIR 1 E. coli NCTC9024 2393 22 pLG024 RT RT-TIR 1 Shigella NCTC2966 2139 monkey with dysenteriae enteritis 23 pLG025 RT RT-TOPRIM 1 E. coli NCTC13441 2569 24 pLG026 RT RT-TOPRIM 1 E. coli NCTC8623 2405 gastro- enteritis 25 pLG027 RT RT-345 1 E. coli STEC 66 1951 26 pLG028 RT RT-345 1 E. coli 21-C8-A 2141 27 pLG029 RT RT-x2 2 E. coli NCTC9091 3648 28 pLG030 RT RT-x2 3 Acinetobacter NCTC7412 4236 SLATT human, urine calcoaceticus associated 29 pLG031 ADA Adenosine 2 E. coli NCTC11116 5533 deaminase 30 pLG032 ADA Adenosine 2 Citrobacter ATCC51459 5526 Laboratory deaminase rodentium mouse 31 pLG033 ADA Adenosine 3 Pluralibacter ATCC33028 6689 SLATT Urine, France deaminase gergoviae associated 32 pLG034 KAP Transmembrane 1 E. coli ECOR25 4415 Dog, New York KAP ATPase (ATCC35344) 33 pLG035 KAP Transmembrane 1 E. coli NCTC8620 4037 human, diarrhoea KAP ATPase 34 pLG036 KAP KAP + 4 E. coli ECOR10 4891 Adult human, unknown + (ATCC35329) New York QueC + TatD 35 pLG037 KAP KAP + 4 E. coli NCTC9009 5408 unknown + QueC + TatD 36 pLG038 Protease ATPase + 2 E. coli ECOR12 3678 Adult human, serine protease (ATCC35331) Sweden 37 pLG039 Protease ATPase + 2 E. coli ECOR52 3676 Orangutan, serine protease (ATCC35371) Seattle Zoo, Washington 38 pLG040 Protease ATPase + 2 E. coli NCTC9008 3917 pathogenic serine protease to chicks 39 pLG041 DUF4011 DUF4011- 1 E. coli ATCC43886 5958 Feces, human helicase-Vsr- DUF3320 40 pLG042 DUF4011 DUF4011- 1 Citrobacter NCTC9067 6502 helicase-Vsr- braakii DUF3320 41 pLG043 DUF3684 Hsp90-like 2 Pectobacterium CFBP3304 10581 Japanese ATPase + wasabiae (ATCC43316) horseradish, SNF2 Eutrema wasabi, Japan 42 pLG044 DUF3684 Hsp90-like 2 Vibrio harveyi ATCC43516 10687 Mouth of ATPase + shark, Bahamas SNF2 43 pLG045 DUF3684 Hsp90- 1 Raoultella NCTC9528 5918 butter DUF3684- planticola DUF3883- PDDEXK(CTD) 44 pLG046 AAA35 Protease- 3 Erwinia CFBP 5888 7847 necrotic AAA35 piriflorinigrans (DSM26166) pear blossoms, Valencia, Spain 45 pLG047 AAA35 Protease- 3 Pectobacterium M022 7740 AAA35 fontis (LMG30744) 46 pLG048 AAA35 DUF4297- 1 E. coli NCTC9036 6514 AAA35-TPR 47 pLG049 AAA35 DUF4297- 2 Salmonella NCTC13175 7175 AAA35 enterica 48 pLG050 AAA35 DUF4297- 1 Salmonella NCTC10718 6261 AAA35 enterica 49 pLG051 AAA35 Unknown- 1 E. coli NCTC9087 5109 AAA35- unknown 50 pLG052 AAA35 Unknown- 1 E. coli NCTC10650 4781 AAA35- unknown 51 pLG053 AAA35 RE-AAA35 1 E. coli NCTC11132 4964 52 pLG054 Kinase DUF2357 7 Obesumbacterium DSM2777 12191 ale yeast proteus 53 pLG055 Kinase Kinase- 2 E. coli NCTC13919 6873 Clinical isolate. helicase_1600aa Human, rectum 54 pLG056 Kinase VWA + 3 E. coli NCTC9094 3605 phosphatase + kinase 55 pLG057 Kinase 5-gene McrBC- 5 Plasticicumulans DSM25287 11931 lactate-fed like lactativorans bioreactor inoculated with activated sludge from a sewage treatment plant, Kralingseveer, Rotterdam, Netherlands 56 pLG058 GTPase GTPase 3 Pantoea LMG 2657 4789 cypripedium orchid, cypripedii (DSM3873) California 57 pLG059 GTPase GTPase 3 Pectobacterium CFBP3304 5216 Japanese wasabiae (ATCC43316) horseradish, Eutrema wasabi, Japan 58 pLG060 GTPase GTPase 3 E. coli NCTC10962 4577 faeces(arabian gulf) 59 pLG061 SIR2 SIR2-DUF4020 1 E. coli NCTC9112 4212 60 pLG062 SIR2 SIR2-TPR- 1 Cronobacter NCTC8155 4329 tin of dried HEAT sakazakii milk 61 pLG063 SIR2 SIR2-AAA35 1 E. coli NCTC13384 3411 (ATCC11229) 62 pLG064 Misc Dcm + 5 Pseudomonas NCTC10727 11911 unknown + aeruginosa unknown + HerA + Vsr 63 pLG065 Misc Dcm + 5 Aquimonas voraii DSM16957 11635 water, unknown + Assam, India unknown + HerA + Vsr 64 pLG066 Misc Phosphoesterase 1 E. coli NCTC8620 3066 human, diarrhoea (PHP)-SMC 65 pLG067 Misc Helicase- 2 E. coli NCTC9033 7356 nuclease_unknown 66 pLG068 Misc DUF3893 3 Pseudomonas DSM10604 6714 common lilac (possible pAgo) syringae 67 pLG069 Misc RecQ 1 Klebsiella NCTC11696 5424 oxytoca 68 pLG070 Misc SIR2 + HerA 2 E. coli NCTC11129 3308 69 pLG071 Misc DUF4297 + 2 E. coli NCTC11131 3419 HerA 70 pLG072 Misc Dcm + Hsp90- 4 E. coli NCTC86 7655 sensor histidine (DSM301) kinase + response regulator 71 pLG073 Misc Dcm + Hsp90- 4 E. coli NCTC11560 6042 sensor histidine kinase + response regulator 72 pLG074 Misc Palatin + 4 Klebsiella NCTC9735 4755 nucleotidyltrans- aerogenes ferase + UBCc/ThiF + ubiquitin-like 73 pLG075 Misc Sensor histidine 2 Pseudomonas NCTC13717 4088 kinase + aeruginosa phosphoribosyltrans- ferase 74 pLG076 Misc PH-TerB- 2 Klebsiella NCTC11357 3637 DUF726 pneumoniae (transmembrane) + Nup (transmembrane) 75 pLG077 Misc TerB- 3 E. coli NCTC9024 6037 Identified in DUF2791-Lhr Doron et al. Science 2018 76 pLG078 Misc DUF499 + 3 E. coli ECOR58 9809 Identified in Lion, DUF1156 (ATCC35377) Anantharaman Seattle Zoo, et al. Biology Washington Direct 2013, 8: 15 77 pLG079 Kinase 5-gene McrBC- 5 Yoonia DSM29955 11425 tidal flat like sediminilitoris sediment, South Korea 78 pLG080 Misc DUF1887 1 Salmonella NCTC6026 4100 CTD; no other enterica domains

TABLE 3B  Sequences of loci of row numbers 1-78 of Table 3A. Row No. Vector Locus 1 pLG003 acagcaccacgttcatcttccttttttaactgattttacagagactttaatacagttaaaattttatttcctgagctgtaatcgat taagttgatgcatttaatgggaatgatatagggtcatttccagtctcacttatagaaatggctaaagcatgactctcgccaaaacc gtttatgtgttgtacataacgcgatcatccctctcacaaattgccttttctcatggcatctcgcccggtcccccattacaatcact ttttgttttttgcgagctgcattccagtcttcagagggtttttcgatgattaaaaatgacaaggcatggataggagacttgctggg cggaccgctcatgagcagggaaagccgcgtcattgccgaactgttgctaaccgatcccgatgaacagacatggcaagagcaaattg ttggccacaacattttacaagcctcttctcctaacaccgcaaaacgttacgcggcaacaatcaggcttcgcctgaacacgctggat aaaagcgcgtggacattgattgccgaaggtagtgaacgggaacgccaacaacttctgtttgtggctctgatgctacattcgccggt agttaaggattttctggctgaagtggtgaacgatctgcgcaggcagttcaaggaaaagttgcctggcaatagctggaacgaatttg tgaatagccaggttcgcctacatccggtactcgccagctactcagattcatctattgcaaaaatgggaaacaatctggtgaaggcg cttgctgaagcgggttatgtggatacgccccgcagacgtaacctgcaggcagtttaccttttaccggaaactcaggcagtgttaca gcgcctgggacaacaggacttgatatctattctggagggaaaacggtgatagatcccgttcttgaatatcgcctgtctcaaatcca gagtcgcattaacgaagatcgcttcctcaaaaataacggctccggaaatgaaattggtttttggatctttgattatcccgcgcagt gcgaactgcaggtacgggagcatttgaaatatctgctccggcatctggaaaaggaccataaatttgcctgtctgaatgtcttccaa atcatcatcgatatgctcaatgaacgcggccttttcgagcgcgtctgccagcaggaagtcaaagtgggtactgagacgctgaaaaa gcagcttgctggtccgttaaatcagaaaaagatcgctgattttatagcgaaaaaagtcgatctggctgcccaggattttgtcattc ttaccggcatgggcaacgcctggccattagtacgcggtcatgaactgatgagtgccttgcaggatgtcatggggttcaccccactg ctgatgttttatcctggcacctacagcgggtacaacctttccccgctcacagacaccggttcacaaaattattatcgcgctttcag actggtaccagatacgggacccgcagcaacattgaatcctcaatgaagagcataacaatgaatattgaacagatttttgaaaaacc tctaaaacgaaatataaacggggtagtcaaagcagagcaaaccgatgatgccagcgcgtacatcgagttagatgaatatgtcatca cccgcgaactggaaaaccatcttcgccatttcttcgaatcctatgttcctgccactggcccggaacggatccgtatggaaaacaag atcggcgtatgggtttcaggcttcttcggttcaggtaaatcgcactttattaagattctttcttatcttttatctaaccgcaaagt tacacataacggtacggaacgtaatgcttactccttctttgaagataaaatcaaagatgcattattccttgccgatattaacaaag cggtgcattacccgactgaagtcattctgttcaatattgattcgcgtgccaacgtagatgacaaagaagatgccattcttaaagtc ttcctgaaagttttcaacgaacgcattggatactgcgctgattttccgcatattgcccatcttgagcgcgagctggataaacgcgg tcagtatgaaacctttaaagccgcgtttgccgatatcaatggctcgcgctgggaagacgagcgcgacgcttactacttcatcagcg atgacatggcacaagcattaagccaggccacgcagcagagtcttgaatcctcccgccaatgggtggaacaactcgacaaaaacttc ccgctggatatcaataatttttgccagtgggtaaaagagtggctggatgacaatggtaagaacatcctctttatggtggatgaagt cggtcagttcattggcaaaaatacgcaaatgatgctgaagctgcagactattactgaaaaccttggggtaatttgcggtggccgcg catgggttatcgtgacttcgcaggccgatatcaacgcggcaatcggtggtatgagcagtcgcgacggacaggacttctccaagatc caggggcgcttctctacacgcctgcaactttccagctctaacacatcagaagttatccagaaacgtttgttggtaaagactgacga agcaaaagcggcactggcaaaagtgtggcaagagaaagccgatatcctgcgtaaccagctggcttttgacactacaacaactactg cactacgtccttttaccagcgaagaagagttcgttgacaactacccgtttgtcccgtggcactatcagattctgcaaaaagtgttt gaatctattcggacgaaaggtgcagcgggtaaacaattggccatgggtgagcgttctcagctggaggcattccagacggcggcgca gcaaatctcagcgcaagggctggattctctggtgcctttctggcgcttctatgccgccattgagagcttcctggaacctgccgtta gccgcaccatcactcaggcttgccagaatggcattcttgatgagttcgatggcaacctgcttaaaacgctgttcctgatccgctat gtggaaacgctgaaaagcaccctggataacctggtcacattgtctatcgataggatcgatgccgataaagttgagttgcgccgccg ggtcgaaaaaagtctcaacacgcttgaacgcctgatgctcattgcgcgcgttgaagataaatatgtgttcctgaccaacgaagaga aagagatcgaaaacgagatccgtaacgttgatgtcgatttctctgcgatcaacaaaaaactggcatcgatcatctttgatgacatt ctgaaaagccgtaaatatcgttatccggctaacaagcaagactttgatatcagccgcttcctgaacgggcatccattagacggcgc agtgcttaacgatctggtggtgaagatcctgacccctaaagatccgacttattcgttctataacagcgatgcgacctgtcgccctt atacgtcagaaggcgacggctgtattttgattcgtctgcccgaagagggccgtacctggagcgatattgatttagtcgtccagact gaaaagttcctcaaagataacgccgggcaacgtccggaacaggcaaccctgctctcagaaaaagcgcgtgaaaacagcaaccggga aaaattactccgtgttcagttggaatcactacttgcagaagcagacgtctgggcgattggcgaacgcttaccgaaaaaatcctcca cgccatcgaacattgtcgatgaagcctgccgttacgtgattgaaaacaccttcggcaagctgaagatgctgcggccttttaacggt gacatctcccgtgaaattcatgcattactgacggttgagaacgacaccgaactggatctcggtaacctcgaagagtccaaccccga cgccatgcgcgaggtagaaacctggatcagcatgaatatcgaatacaataaacctgtgtatttacgcgatattctgaaccattttg cgcgtcgcccttatggctggcccgaagacgaagtgaaactgctagtagcccgtctggcctgcaaaggtaaattcagcttcagccag caaaacaacaacgtcgagcgaaaacaggcgtgggagttatttaataacagccgccgccatagcgaattgcgtctgcataaagttcg ccgtcatgatgaagcgcaggtgcgtaaagccgcgcaaaccatggctgacatcgctcagcagccgtttaacgaacgggaagagccgg cgctggttgaacatattcgtcaggtatttgaagagtggaagcaagagctgaacgtattccgcgccaaggcagagggcggaaacaat ccggggaaaaacgagattgaatccggtctgcgcctgcttaatgccattcttaatgagaaagaagattttgccctgatcgaaaaagt ctcatcgctgaaagatgaacttctggatttcagcgaagaccgtgaagatttggtcgacttctaccgtaagcaattcgccacctggc aaaaactgggtgctgcgctgaatggcagctttaaatctaaccgcagcgcgctggaaaaagacgccgcagcggttaaagcgctgggc gagctggaaagcatctggcaaatgccggaaccttataagcatctcaatcgcatcacgccgttgattgaacaggtccagaacgtcaa ccatcagttagtcgaacagcatcgccagcacgccctcgaacgcattgacgcccgcattgaggaaagccgtcaacgcttgctggaag cgcacgccacgtcggagctgcaaaacagcgttctgctgccgatgcaaaaagccagaaaacgcgctgaagtcagccagtcgattccg gaaattttggcggaacagcaagagacaaaagcgctgcaaatggatgcagataaaaagattaacctgtggatcgacgagctgcgtaa aaagcaagaagcacaactccgggcagcaaatgaagctaaacgcgctgccgactcagaacagacttatgttgtggtggaaaaaaccg ttatccaaccggtaccgaaaaaaacgcatctggtgaatgtcgccagtgagatgcgtaatgccaccggtggtgaagttctggaaacg accgaacaggtggaaaaggcgctcgacacgttacgcacaacgctgctggccgtcattaaagcaggcgatcgcattcgccttcagta actcccatttcagggcagcactctgctgccctttgcaggattttctatgaataccaataacattaaaaaatatgccccacaggccc gtaacgacttccgcgatgcggtgatccagaagctaacgacgcttgggatcgctgcagataaaaaaggcaatttgcagattgccgag gccgaaaccattggcgagaccgtgcgttacggtcagtttgattacccgttatcgacccttccccgccgcgaacggctggtaaaacg cgcccgtgagcagggttttgaggtgctggttgagcactgcgcctacacctggtttaaccgcttatgtgcaattcgctatatggagc tacacggttatcttgagcacggcttccgtatgttgtcccacccggagacgccgaccgcgtttgaggtgctggatcatgtgccggaa gtggcagaagccctgctgccggaaaataaggcgcagctggttgaaatgaagctttccggtaatcaggacgaagccctgtaccgcga actgctgctggggcagtgccacgccctgcaccacgcgatgccgttcctgtttgaagcggtagatgacgaagcggaactgctgttgc cggataacctgacccgtaccgactctattctgcgtgggctggttgatgatattccggaagaagactgggagcaggtagaggttatc ggctggctgtatcagttctatatttcggaaaagaaagatgccgtgattggcaaagtggtgaagagcgaagatattcctgccgccac ccagctgtttacgccaaactggattgtgcagtatctggtacaaaactccgttggccgccagtggttgcagacctacccggactcgc cgctgaaagacaaaatggagtactacatcgagcctgcggaacaaacgccggaagtgcaggcgcagctggcggcgattaccccagcc agcattgaacccgaaagtattaaagtgctcgacccagcctgcggctccggtcatattttgattgaagcctataatgtgctgaaaaa tatctacgaagagcgtggttatcgcgggcgtgatattccacaactgattctggaaaataatatttttggtcttgatatcgacgacc gcgcggcacagctttccggctttgcattattaatgatggcgcgtcaggatgaccgcagaatatttacccgcgatgtacgtctgaat attgtctctttgcaggaaagcctgcatctggatatcgccaaactctggcagcaactgaatttccaccagcaggtacaaaccggcag tatgggggatatgtttgctgaaaataacgcgttaacccaaactgacagcgcagaatatcagctgctgatgcgcacgctgaaacgct ttgtgaatgcaaaaacgctgggctcactgattcaggtgccgcaggaagaagaagcggaactgaaggtattcctggacgcgttgtat cgcctggaacaggaaggcgatttccagcagaagacggcggcaaaagcgtttattccgtttattcagcaggcgtggattttagcgca gcgatatgatgcggtagtggcgaatccgccgtatatggggggtaattatatggagacagaacttaagaatttcgtctcttcttact accctcaaggaaaggcggatctttattcttcatttatggtcagattacttttacaattaaaagataatcgcactttaagcctaatg accccctttacttggatgaatttatcatcatttgaagagctccgaaaaattatacttacaaatttcagcattcagtcattagtaca gcctgaatatcattcattttttgagtcagcttatgtcccaatttgtgcttttagcatttcaaataccccattaagctggaatgcaa aattttttgatttatcagatttttatggagaaaaaaatcaagctccaaattttcagtatgcaattaaaaatgacaataaatgtcat tggaaatataacagaatcaccacggactttctatgtactcccggatatatcattgcttactctctgcctgattctgcgttatcttg cttcaaaacatccaaaaaacttcatgatgtttgcaatctaaaacaaggattaattactggtgataatgaaagatacctaagattct ggcatgaaatcagctataactctttcagtctcaatgaaaaaagaaaaaaaacaaaatggttcccatatcaaaaaggtggtgcatac cgtaaatggtatggtaataatgattatgttgttgactgggagaatgatggttattccattaaaaacttttataatgacaaaggtaa attacgctcacgccctcaaaacatacaattttattgtaaagagggtttaacatggacaagtttaactatttcgtcactatcgatga gatatgtaccaaatggatatatttttgatgcaaaaggacctatgtgttttccgaaatcctctttggatatctggaatattcttggc tatgcgaatagcaaagtaatagatatatttctcaaacaattagcgcccaccatggattattctcaagggcctgttggaaatgtccc attcaaatttaacgatggtgatttgaacgagataataaaagaactcgtaaacattcacaaacgtgactgggatgaaaatgaaacat cttttgagtttaagagagatatgttggttcatttttcaagagatattaacactattaagggtagttttacactaaggcaaggggaa aataaaaaagcgattaacagaacaaaatttttagaagaaatgaataactctttctttataaattgctttaatctaactgatatttt atctccagaaattgaactaaacaaaatcacgttaacgcatgcaactattgaaattgatattcaaaaaataatttcatatgcaatag gctgccaaatgggacgttactcccttgatcgcgaaggtctggtatacgctcatgaaggcaataatggcttcgccgatcttgtcgcc gaaggtgcttataaaagcttcccggctgatagtgacggcattctgccgctaatggatgaagagtggtttgacgatgacgtcacctc tcgcgtcaaggagtttatccgcaccgtttggggcgaagaatatttgcgcgaaaacctcgattttatagccgaagttctcaagccca aaaaaggcgaatctgcgctggagaccattcgtcgctatctttccacccagttctggaaagatcatctgaaaatgtataaaaagcgt ccaatctactggctattcagctccggtaaagagaaagcgtttgagtgcttggtgtatctgcatcgctataacgatgccacgctgtc gagaatgcgtaccgaatatgtggtgccgctgctggcgcgttatcaggccaatattgatcgcctgaacgatcaacttgatgaggctt ctggcggtgaatccacacgtctgaaacgcgaacgcgacagcctgatcaaaaaattcagcgaactgcgcagctatgacgatcgcctg cgtcactatgctgatatgagaatcagtattgatctcgacgatggcgttaaggttaactacggcaagtttggcgatctgctggcaga tgtcaaagccatcaccggcaatgccccagaggtgatctaaaccagacggcacgttctcctgttgccgggttctgcccggtggcaaa taccaccgggaaacgcgccgctgctgacatttctccacctcacttcatgataaaatgcgccaccgtgtcaaaatctccttttcgcg ttttggcgctttcttattcatcgtaacaacatgggattgtgaacttgcaaaatcaggactttattgctggccttaaagctaaattt gccgaacatcgcatcgttttctggcacgatcccgataaacgttttattgaggaactggaacagctcaagcttgaaagcgtcacgct aatcaacatgacccacgagtcacagctggcggtaaaaaaacgcatcgagattgatgagccagaacagcagttcctgctgtggttcc cccatgatgcgccgcctcatgaacaagactggctgctggatatccgcctttacagcagcgaattccatgccgattttgccgccatc accctgaacacgctgggcattccccagcttggcctgcgcgagcatattcagcgacgcaaggccttcttcagcactaaacgcacgca ggcgctgaaaaatctggcgacagaacaggaagatgaagcctcgctggataagaaaatgattgcggtgatcgctggcgcaaagaccg cgaaaaccgaagacattttgttcaacctgattacccagtacgttaaccaacaaatagaagacgacagcgaactggaaaacacgcag gcgatgctgaaacgccacggtctggactcggtattgtgggaaatgctcaaccacgaaatgggctaccaggcagaggagccatcgct ggaaaacctgctcctgaaactgwtgtaccgatctctctgcccaggccgacccacagcagcgcgcctggctggaaaaaaatgtcctg ctgacgccatccggcagagcatctgccctggcatttatggtgacctggcgtgccgatcgtcgctataaagaggcttatgactactg cgctcagcaaatgcaggccgccctgcacccggaagatcattaccgactcagctcgccgtatgatttgcacgaatgcgaaaccaccc tcagcatcgaacaaaccattattcatgcgctggtaacacagctgctggaagagagcaccacgctcgatcgggaagcctttaaaaaa ctgctctctgagcgccagagcaaatactggtgtcagacacaaccagagtattacgccatctatgacgcattgcgccaggctgagcg gttgctgaacctgcgcaatcgccacatcgatggtttccactaccaggacagcgccaccttctggaaagcctactgcgaagaactgt tccgcttcgaccaggcttatcgcctgtttaatgaatatgccttgctggttcacagcaaaggagcgatgatcctcaagagcctggat gattatatcgaggcgctctacagcaactggtatctggcagagttaagccgtaactggaacgaagtgctggaagcggaaaatcgtat gcaggcgtggcaaatccctggcgtgccgcgtcagcagaacttcttcaatgaggtggtgaagccacagttccaaaatccgcaaatca aacgcgtgttcgtgataatttccgatgccctgcgttatgaagtggcggaggagctggggaatcaaatcaataccgagaaacgcttt accgcagaactgcgctcgcagctcggcgtgctccccagctacacccaactgggaatggcggcattgctgccccatgaacaactttg ctatcaacccggtaacggcgacatcgtttatgctgatgggctgtcgacctcgggtattcctaaccgcgataccattctgaagaact ataagggaatggcgataaaatcgaaggaccttctggagttaaaaaatcaggaagggcgagaccttattcgcgattacgaagtggtg tatatctggcataacacgattgatgccactggcgacacggcatccacggaagataaaaccttcgaagcgtgccgcacggcggtggc tgaactgaaagatttagtcaccaaggtgatcaaccgcctccacggcacacgcatttttgttacggcggatcacggtttcctgttcc agcaacaggcgctttcggttcaggataaaaccactctgcaaattaagccggaaaacaccatcaagaaccacaaacgctttattatc ggccatcagcttcccgccgatgatttttgctggaaagggaaagtggcggataccgcaggcgtgagcgacaacagcgagttcctgat tccgaaagggatccagcgcttccatttctctggcggcgcgcgcttcgttcatggcggcaccatgttgcaggaggtttgcgttccgg tattgcagataaaagccctgcaaaaaaccgccgcagaaaaacagccacagcgccgcccggtggatattgtcgcttaccatccgatg attaagctagtgaacaatatcgataaagtgagcctgttgcagacgcatccggtgggcgaactttatgaaccgcgtatcctgaacat ttacattgtcgacaacgccaacaatgtggtctcgggcaaagagcgcatcagctttgacagtgataacaacaccatggaaaaacgcg tacgcgaagttacgctgaagctgattggcgctaacttcaaccgtcgcaatgagtactggttgatactggaagacgcacaaacggaa acggggtatcagaagtacccggtcattatcgatctggcgttccaggatgatttcttctaagtgaggcgatatgcaaacccatcatg atttacctgtttcaggcgtatccgcaggggaaattgcctccgagggttacgatctggacgccctgctgaaccagcattttgctggt cgcgtggtgcgtaaagatctcaccaagcaactcaaggaaggggcaaacgtcccggtgtatgtgcttgagtatctgctcggcatgta ctgcgcctctgacgatgacgatgtggtcgagcaagggttgcaaaacgttaagcgtattctggctgataactatgtgcgcccggatg aagcggagaaagtgaagtcgctgatccgcgagcgtggttcgtacaaaatcatcgataaagtgtcggtgaaactgaaccagaaaaaa gacgtttacgaagcccagctttctaacctcggcatcaaagacgcgctggtgccctcgcagatggttaaagacaacgagaagctact gacgggcggtatctggtgcatgattaccgtcaactatttctttgaagaagggcagaagacctcacccttctcattgatgacgctca agcctatccagatgccgaatatggatatggaagaggtgttcgatgcgcgtaaacactttaaccgtgaccagtggatcgatgtgctg ctgcgctcggtgggtatggagcccgccaatattgagcaacgcaccaaatggcaccttatcacccgtatgatcccgttcgtggagaa caactataacgtttgcgagctggggccgcgtggcaccggtaaaagccatgtgtataaagagtgttctcctaactccctgttagttt ccggcgggcaaacgaccgttgccaacttgttctacaacatggccagtcgccagatcggcctggttggcatgtgggatgtggtagcg ttcgacgaagtcgcggggatcactttcaaagataaagacggcgtgcaaatcatgaaagattacatggcgtcaggatctttctctcg cggcagagattcgattgaaggtaaagcgtcgatggttttcgtcggcaacatcaatcaaagcgtagagactctcgttaaaaccagcc atttgctggcaccatttccgactgcgatgattgatacagcatttttcgaccgctttcatgcctatattcccggttgggaaatcccc aaaatgcgcccggaattctttaccaaccgttacgggctgattacggattatctcgctgaatatatgcgcgaaatgcgcaaacgcag tttctctgatgcgattgataaattctttaagctgggtaacaacctcaaccagcgtgacgttattgccgttcgacgtaccgtgtcgg ggttgttaaaactcatgcatcccgatggcgcgtacagcaaagaagatgtgcgagtctgcctgacctatgcgatggaagttcgccgc cgcgtgaaagagcaacttaaaaaactgggcggtctggagttcttcgatgtgaactttagctacatcgacaacgaaacgctggaaga gttttttgtgagcgtaccggaacagggcggcagcgaacttattcctgccggaatgccaaagccgggtgttgtgcatctggtcactc aggcagaaagcggcatgaccgggctgtatcgttttgaaacacagatgactgccggtaatggtaagcatagtgtatcgggtctgggt tcaaatacctccgcgaaagaagctatccgcgtcggtttcgattacttcaaaggcaatttgaatcgggtaagcgcggccgcgaaatt ctccgatcatgaatatcaccttcatgtcgttgaactgcataatactggcccaagcaccgcaaccagtcttgctgcgcttatcgctt tatgttcgatattgctggcaaaaccggtgcaggaacagatggtggtgttgggcagtatgacgcttggtggggtaattaacccggtg caggatcttgccgccagtttgcagctcgccttcgacagcggtgcaaaacgggttctgttgccgatgtcctcggctatggatattcc aacggttccggcagagttatttaccaagtttcaggtgagtttttactcagacccggttgatgctgtttataaggcgctgggtgtga attaacgtagtaactattttaatgaac (SEQ ID NO: 3) 2 pLG004 ggtgaacgtttggttgatagggtagtaaaactagtaatcatcctataattagctatattcgtggttattagattgaaaacagataa cattaacaaaatctataaatcgatttgaatgatttttttcatcaatactgttgtaagctcctgctatcaaaagttttgcacacaat ctataagctcccagaattgcttgtataaatgctatcattggcgctgtcccgatcgagggagcaaggaggggactctcttgtgccat gcgattaatcactggggctctaagtgaaatttagtgggactaaatactaattggaacgtgagataaaaatgcacaaatatccctct ataatagttaatatcaaccttcgagaagccaaactgaaaaagaaggtacgtgagcatttacaatccttgggttttacaagatctga ttctggagcgctccaggccccgggaaataccaaagatgtaatacgggctcttcatagttctcaacgagctgagcggatatttgcaa accaaaagttcataacgctaagagcggcaaagcttattaaatttttcgcatccggcaatgaggtcattccggataagatttcaccg gtacttgaacgtgtaaagtcaggaacctggcaaggagatctctttaggttagcagcattaacttggtccgtacctgtttcaagcgg atttggaaggcgtctccggtatcttgtatgggatgaaagcaacggaaaattgatagggctgatcgcaattggtgaccctgtgttca accttgcagtccgagataatttgattgggtgggatactcatgccagaagttcccggcttgttaatttgatggatgcatacgtcctc ggtgctcttcccccttataatgccctgctgggaggaaaattaattgcatgtctgcttcgtagccgcgatctttatgatgactttgc aaaggtctatggtgataccgttggagtaatatctcaaaaaaagaaacaagcacgtcttttggctattacaacaacatcgtctatgg ggcgctcatcggtatataaccgtttaaagctggatggaattcaatatttaaaatcgattggatatacaggcggttgggggcatttt catatacctgatagcttgttcattgaattacgtgattacttacgtgatatggatcacgcttatgcagatcattatatgtttggtaa tgggcctaactggcgtttacgtacaactaaggcagctttaaatgcactaggatttagagataatttgatgaagcatggaattcaac gtgaagtgtttatcagtcagctagcagaaaatgcaactagtattctgcaaacaggcaaaggtgaaccagatctaacctctttgctt tctgctaaagagatagctgagtgtgcgatggcacgatggatggttccacgatcaattcgcaatccagaatatcggctttggaaagc aagagatctatttgattttattagtaatgactcgctaaactttcccccgtttgacgagatagcgaaaacagttgtctaatcttaac tgaagggggagtaagtgaattacgctattgataagttcaccgggacactgatattagcagctcgagcaacgaaatatgctcaatat gtttgcccagtttgtaaaaaaggtgttaacctccgtaaagggaaggttatacccccatattttgctcatttgcccggacatggtac gtcagactgtgaaaattttgttcccggaaattctatcattgtcgaaactattaaaactatttcaaagcgatatatggatttgcgct tattgattcctgtcggaagtaatagtcgagagtggtcattagaattagtgttgccaacctgtaatttatgtagagcaaagataacg ttagatgtaggaggcagaagccaaacgcttgatatgaggagtatggtaaagagtcgccagattggtgctgaattatcagtaaaatc ttaccgtattgtttcatatagtggtgaaccagatccaaaatttgtaacagaagttgaaagagaatgcccaggtttaccttctgagg gagcagcagttttcactgctttagggcgtggggcatcgaagggatttccacgagcacaagagttaagatgtactgaaacatttgcc tttctttggcgacaccctgttgctccagattttcctgatgaattagaaataaaaagtttagctagtaaacagggatggaatttagc tcttgttacaattcctgaagtcccttctgtggagagtatttcatggctaaaatctttacataccttcctgttgttcctgccagaac atctattacagcaatttggccgttcctaaatcaaaaaacaagtattaatcatgtcgaatgtgtttattctgacacaatattgttgt caacaaatatggcaccaacatcatcagaaaatgttggaccaactatgtacgcacaaggttcctctttattactttcagcggttggt gttgaaacatcacctgctttcttcattctaaatcctggagaaaatgactttgtgggcgtttctggctcaattgagcaggacgtaaa cttatttttttctttctataaaaaaaacgtttctgtacccagaaaatatccctcaatagatttggtttttactaagaggaataaag aaaagaccatcgtttccttacatcaaagaagatgcattgaagttatgatggaagcacgaatgtttggccataaattagaatacatg tctatgccttctggtgttgaaggagtggcaagaattcaaagacaaactgaaagtaatgttattaagttagtttctaatgatgacat tgcagctcatgataagagcatgcggttactatctcctgttgcgttatctcaattatctgattgcttagcaaacttaacatgtcatg tagaaatagattttttaggtcttggtaaaatatttttacctggttcttctatgctatcattagatgacgggaaatttattgaatta tctcctaatcttcgctcacggatattaagttttatacttcaaatggggcacaccctccatggttttagtttaaataatgatttttt attagttgagaaattagtggatttgcagccggaaccacacttattaccgcattatagagcattggtaaaagaagttaagaccaatg gatttgaatgtaaccgctttagataaggtgccttcgaatgagttaccaatatagccaagaggcaaaggaacggatctctaagttgg gacaatccgaaattgttaactttatcaatgagatttctccaactttacgacgtaaagcttttggttgtttaccaaaagtaccggga ttcagggcaggacatcccactgaaattaaagaaaaacagaaaagattgattgggtatatgttccagtcacatccttcctctgagga gagaaaagcatggaaaagtttttctcttttttggcagttttgggctgaagagaaaattgacaaatcatttagtatgattgataatt taggattaaaagaaaactctggctctatttttattagagagcttgctaaaaactttcctaaagttgctagagagaatatcgagcgc ctgtttatctttagtgggtttgctgatgatccagacgttataaatgcatttaacctttttcctcctgcagttgttcttgcccgcga tatcgtgattgatactcttccaattcgtttagatgagcttgaagcacgtattagtttaattgccgataatgttgagaaaaaaaata atcatattaaagaacttgagttaaaaatagatgctttttccgaacagtttgataattactttaataatgaaaagagcagtttaaaa ataattaatgaactacaatctttgataaactcagagactaaacaatctgatattgctaataaagctattgacgagctttatcattt taatgaaaaaaacaaacagctaatattatctcttcaagaaaaattagattttaatgctctggctatgaatgatatttctgagcatg aaaaattgataaaaagtatggctaatgacatttcagaatttaaaaatgcattaacgatcttgtgtgataataaaataaagaataac gagttagattatgtcaatgaattaaaaaaactcactgaacgaatagatacacttgaaataaacacatctcaagctagcgaagtgag tgtcaccaatagatttacaaaattccatgaaatagcgcactatgaaaattatgagtatctttcatcctccgaagacatatctaata gaatttctttaaatttacaggctgttggattgacaaaaaattcagcagaaaaattggctagattgacattagctaccttcgtttct ggacaaatcattcaattcagtggctctttggcagatattatcgcggatgcaattgccattgctattggtgcaccacgttatcacat atggagagttccagttggtattatttctgacatggatgcttttgattttatagagactatagctgaatcatctcgctgtctccttt tgaaaggggccaatctttcagcatttgagatttatggagcggcaattagagatatagttgttcaacggcaaatacatccaacaaat tatgaccatctggcattgatagctacctggaaacaaggcccagctacattccctgatggaggaatgttggccgagttgggacctgt tattgatactgatacattaaaaatgcgtggtttatcagctactttaccccaattgaaaccaggttgtcttgccaaggataaatgga caaatattgatggactacatcttgatagtgttgatgattatgtagatgaattaagagcattactggacgaagctggatttgatggg ggaactttgtggaagagaatgattcatattttctatacttcactcataaggatccctaatggaaattatatttatgatctttattc tgtcttgtctttttatactcttacatgggcaaaaattaaaggtggccccgtccaaaagatagaagatattgccaatcgtgaattaa aaaattatagtgcaaaaatatcttcttgaggaggtggttaatggagtggagagcagtatcacgagacaaagcactggatatgttat caactgcattaaattgtcgatttgatgatgaagggttgagaatttcagcagtttcagaatgcttaaggagcgtattatatcaatat tctatatctgaaacagaagaagctaggcaaactgtaacctcgcttcgactcactagtgcagtaaggcgaaaattggtacctttatg gccagacattgctgatattgataatgctatacatccgggcattatgtctatattgaacagcttggctgaattgggtgacatgatta agttagaaggtggtaattggctaacagctcccccacatgcagtacgaattgacaataagatggctgttttttttggtggagagcct tcctgtacattttcaacgggcgtggtagctaaatctgctggaagagttcgcttggttgaagaaaaagtgtgtactggaagtgttga aatctgggatgcaaatgagtggattggtgccccagcagaaggcaatgaagaatggtcatccagactactatctggaactatttccg gctttatcgatgcacctggcaatatgagtgaaacgactgcatatgtgcggggaaaatggctccatttgtcagaactttcttttaat aaaaagcaaatctacttatgcagaatgtccgttgataatcacttttcctattatttaggagaaattgaagctggacgcttatgtag aatgaattcgttagaatcgtctgatgatgtcagaagattacgtttttttctcgatacaaaagataattgtccgctaaaggtccgta tcaaaatatctaatgggctagcaagattaagattaaccagaagattaccaagacgagaaacgaaggtactcctgctaggctggaga gaatcaggttttgaaaatgaacattcaggaataacacaccatgtattccccgaggaaatattacccatagtgcgtagcgcttttga agggcttggtattatttggattaacgaattcacgcgacggaatgaaatatgattaataaaaataaagtaactgaacgttcaggtat acatgataccgtgaaaagccttagtgaaaatctgagaaaatacattgaggcacaatatcatatccgggatgaagggttaattgctg agcgacgagcgcttttacagcaaaatgaaactattgctcaagctccttatatagaagcaaccccaatttatgaacctggtgcgcca tacagtgaattgcctattcccgaagcagcaagtaatgtgctaactcaactatcagaacttggaattggcctctatcaacgccccta taaacaccaatcacaggcacttgagtcatttcttggcgaaaacgcttctgatctggtcattgcaacaggtacaggctccggtaaga ctgaaagctttctaatgccaattattggaaaattggcgattgaatcttccgagagacctaaatctgcatcccttccaggttgtaga gcaattttattatatccaatgaatgcattagttaacgatcaacttgctcgtatcagacgtctttttggtgattctgaagcctctaa aatactgagatctggaagatgtgcccctgtacgctttggcgcttatacgggaagaacgccttaccctggtcgtcgtagctctagac gagacgagctttttatcaaaccccttttcgatgagttttacaataaactcgcaaataacgcccccgtacgtgcggaactgaaccgc attggtcgctggccaagtaaagatcttgatgctttttatgggcaaagcgcatctcaggctaaaacctacgtctcaggcaaaaaaac gggtaagcaatttgttttgaacaattggggggagaggctaattacccagcctgaggatcgtgagctaatgacccggcatgaaatac agaatcgctgtccagaattactgataacgaactactccatgcttgagtatatgctgatgcgacctatcgagcgtaatatttttgag cagactaaggaatggctcaaagctgatgagatgaatgagcttatcttagtgcttgatgaagcgcatatgtatagaggagcaggggg agcagaggtagcccttttaatacgtcgcctctgtgctcggttggatattccccgggaacgtatgcgctgcatccttaccagtgcta gtctagggtccattgaggatggagaacgttttgcccaagacttaactggcttatcaccaacctcttcgaggaaatttcgaattatt gagggtacaagggaatcgcgtcctgagtcacaaattgttaccagtaaagaagctaatgcactggctgaattcgacctaaattcatt tcagtgcgtagctgaggatcttgaatctgcatatgcagcaatagagtctcttgccgaacgaatgggctggcaaaagccgatgataa aagatcatagtacactacgtaattggttatttgataatttgactggttttggtcctattgaaacgcttattgaaatagtttcaggt aaagcggttaagctaaatatcttgagtgaaaacctttttccagactctccacagcaaatcgcagagcgagcaacagatgcattact cgcattgggttgctatgctcagagggcatccgatggcagagtgcttattccaactcgcatgcatcttttttatcggggattaccag gtctttatgcctgtatagatcccgattgtaatcaacgtttgggtaaccatagcgggccaactatacttggccgcctttatacgaaa ccactggatcaatgtaaatgcgcttcaaaagggcgagtctacgaattatttacccaccgtgactgcggtgcggcttttattcgtgg atacgttagttccgaaatggactttgtatggcaccagccgaacggaccattatcagaagatgaggatatcgatcttgttcccatag atatattggtcgaggaaacacctcatgtacatagtgattaccaggacagatggctacatatagcaacaggacgcctttctaaacag tgtcaagatgaggattctggttatcgtaaagtctttatacctgaccgagttaagtctggatcagaaattacatttgatgaatgccc tgtttgtatgcgtaagacaagaagtgctcagaatgaaccgtctaaaattatggatcatgttacaaaaggggaagcaccttttacaa cgttagtacgtacacagatatctcaccagccagcgagtcgtcctattgatggtaaacatcccaatgggggaaaaaaagtacttatt ttttctgatggccgacaaaaagcagctcggcttgcacgtgatattcctagagatattgagcttgatttgtttcggcaatccattgc tctcgcctgttctaaactgaaagatatcaatcgggaacccaaaccaacatcagtactttaccttgctttcctatcagtcctttctg aacatgacttgcttatttttgatggggaagattcacgaaaagttgtaatggcccgtgatgaattttatcgtgattataatagcgat ctggctcaagcttttgatgatagcttcagcccccaagagtcaccgtcacgatataaaatagcgttgcttaaacttttatgtagcaa ttactattctctttccggaacaacagttggttttgttgaaccatcgcagcttaaatcaaaaaaaatgtgggaagatgtgcagtcca agaagctcaatattgagagcaaggatgttcatgctttagctgttgcttggattgataccttactcactgaatttgcttttgatgaa tctattgattcgacactacgaatcaaagcagctggattctacaaacccacttggggtagtcaaggacggtttggaaaagctcttag gaaaaccctgatacagtatcctgctatgggggagctttatgtggaagttttggaggagatttttcgtactcatctgacattaggaa aagatggtgtctactttcttgctccaaatgcactacgtctgaaaatagatctcttgcatgtctggaaacaatgtaatgactgcacg gcactaatgccatttgctttagaacattctacttgccttgcttgtggtagtaacagtgtcaaaacagtcgagccgtcggaaagcag ctatattaatgcacgaaaaggattctggcgttcgccggtagaagaagttttggtttcaaattcgcggcttctaaaccttagcgttg aagagcatactgctcaactctcacatagagatagggccagcgttcatgccactacagaactctacgaactgagattccaagatgtt cttattaatgataacgacaagcccattgatgtacttagttgtacgacgacgatggaagtgggggttgatattggatctctggttgc tgttgctttaagaaacgtccctccgcaacgagaaaattatcagcaacgtgctgggcgagcaggccgccgtggcgcatctgtttcaa cggtggttacatattctcaaaatggccctcatgatagttattatttccttaatcctgaacgcattgttgcaggttctcctcgtaca cctgaagtgaaagtaaataatcccaaaatagccagaagacacgttcattcttttttagttcagaccttttttcacgagttaatgga acaaggaatttataatcccgcagagaaaactgccatacttgagaaagcacttggtactacacgagatttttttcatggagcaaaag atactggcctaaatctcgatagctttaataattgggttaaaaaccgtattctatctactaatggtgatttgagaacaagtgttgca gcatggcttcctcctgttcttgaaactggagggctttctgccagtgactggtttgctaaggtagcagaggaatttttaaatacact ccatgggctggctgaaattgttccacaaactgccgttcttgttgatgaggaaaatgaagatgatgagcagacttctggtggaatga aatttgcacaagaagaattacttgagttcctgttttaccatggtttattaccaagttatgcatttcctacaagcctctgtagtttc ttggtagaaaaaattgtaaagaatattagaggttcttttgaggtgcgaacagtacaacagcctcagcaatcaatttctcaggctct gagtgaatatgccccgggacgtttgattgttattgataggaaaacctatcgctctggtggtgttttttctaatgcattgaaaggcg aactaaaccgggcaagaaagcttttcaataatcccaaaaagtttattcattgcgataagtgctcttttgtccgcgatcctcataat aatcagaatagcgaaaatacttgtccgatctgtggtggcattctaaaagtagaaataatgattcagcccgaagtctttggacctga aaatgccaaggaacttaatgaggacgacagagagcaagaaatcacctatgtaacagcggcacaatatccacaacctgttgatcctg aagattttaagttcaataatggaggtgctcatattgtttttactcacgcaatagatcagaaactggtgacggtgaaccgagggaaa aatgagggggagtccagtggtttttcagtatgttgcgaatgtggtgcggcctccgtttatgattcctactcaccggcaaagggggc acatgaaagaccgtataaatatatagcaactaaggaaacgcctcgcttatgctctggcgagtataaacgcgtttttctcggacatg atttccgtactgatttgcttttattacgaataaccgttgggtctccgcttgtaactgatacttcaaatgctatcgttttacggatg tatgaagatgcattatatacaatagcggaagcactaaggcttgcagctagtcgccataaacaactggatcttgatcctgctgagtt tggctctggtttcagaattttacccactatagaggaagatactcaggcattggatctcttcctttatgatactttatccggcggtg cgggttatgcggaagtagcagcagcgaatctagatgacattcttactgcaacactcgcattgttagaaagctgtgagtgcgatacc tcctgtacagattgtctcaatcatttccacaaccagcatatacaaagccgtctcgataggaaactaggtgcatctttacttcgtta tgcactatacggaatggttcctcgttgtgcttcacctgatattcaggtagaaaaattgtctcaattgagggcaagtctggaattgg atggttttcaatgcataattaagggaactcaggaggcacctatgattgtgagtttgaatgaccgttctattgcagtgggaagttat cctggtcttattgatcgacccgactttcaacacgacgtatataagtcaaagcatactaatgctcatatagcctttaatgaatatct tcttcgttcaaatctgccacaatcgcatcaaaatattagaaaaatgttgcgctgatagcagcagtattgagtgccctaaagccctg tagggcactcaaggttttcagtgcgtgagcgggctttaactgaagccataaatgtacgtatgggagaaaatgtgaccatttaactc gccagcaactattgcacaatgtaaaattatgcccattgag (SEQ ID NO: 4) 3 pLG005 acggtaatgctgagtttctccattaccattgcaaatgactcaccagagcagactgaacagcgcagaagtgggattgtggatacgtg aagtgagagtaaggggaaaatccacaataatcatctatcgaacagggaggcgaactttacacgatggttttccgggagtgcttacc cggggttcctcacctctggctaatctctggattgagtcgcgatactccaacaaaagcaacaagctaacgcagcaagaagttaacgc tcatcgagagtaaaatgcacacttttatggcttactcgttacaataacagccagtttgttcagaaaaccggattcagtatggccag aataccaaccaaaaaagctaaagcaaaaaaagggtttgaagaaacattatgggatgccgcaaatcagcttcgcggcagcgttgagt cctccgaatacaagcacgtggtgttgagcctcgtgttcctgaaattcatcagcgataagtttgaaacacgccgcaaaaaaatgatt gccgatgggcaggcagatttccttgagatggaagtgttctaccagcaggacaacattttctacctgccggaagaggcgcgttggtc atttatcaaacaaaatgcaaaacaggacgatattgcggttcgtattgacaccgccctctcgaccattgagaaacgtaacccaaccc tgaaaggtgcgctgccagacaactacttcagccgtcagaatctggaaaccaaaaaactggcatcactgattgataccatcgacaac atcgaaacgctggcacacgagactgacgttgaaacgttatcgaaagaagacctggtcggacgcgtttatgaatacttcctcggtaa gtttgccgccactgaaggcaaaggcggtggtgagttctacacgccaaaatgtgtggtcacgctgttaactgaaatgctcgaaccct tccagggcaaaatttatgacccgtgctgcggctcggcaggaatgttcgtgcagtcggtgaagtttgtcgagagccatcagggtaaa agccgtgatatcgcgcgtatggtcaggagctgacagccacgacgtataaactggcaaaaatgaacctcgctattcgcggtctttca gctaacctcggcgaacgcccggcaaacactttctttagcgaccagcacccggacctgaaagctgactatattctggcgaacccgcc gttcaacctgaaagactggcgtaacgaagcagaattaaccaaagatccacgttttgccggttatcgtatgccgccaaccggtaacg ccaactacggctggattttgcatatgctctccaagctgtcggctaacggcacagcgggttttgtgctggcaaacggttcgatgagt tctaacaccagcggtgaaggcgagatccgtgcacagatgatcgaaaatgatctgatcgactgcatgattgctctgccaggtcagtt gttttacaccacgcagatcccggtgtgtttatggtttatgaccaaatcgaaggctgccgatccggccaaaggttatcgtgatcgtc agggcgagacgctgtttattgatgcgcgtaacctcggcaccatgattagccgcacaactaaagagttaacagcggaagatattgcc acaatcgccgatacttaccatgcttggcgtagcacgccagaagaactggctgcacggattgcgcgtggtgacagcaagctggaaaa atatgaagaccaggcaggcttctgcaaagttgcgaccctgcaagatattaaagataacgactacgttctgacaccgggccgctatg tgggtgcagccgagcaggaagaagacggcgtggcatttgagaccaaaatgcgtgaattgtcgaagacgttgtttgagcagatgaag caggcggaagaactggatcgtgcgattcgccagaatctggaggcgctgggttatggggagtaaatgggagaaaataaaacttaaag aagttgtagatattatcactactaaagttgatgtatcgcaaattagtctttgcgattacatatcaactgaaaatatgcttaccaat tttggaggtatatcaatagcaaatagtaaacctagcacagggaaaataacaaaatttcattctggagatattttattctcgaatat cagaacatattttaaaaaactatggcttgcagatcgaactggtggctgttctaacgatgtaattgtattccgtcccaaaaaacata ttaattctaattatattttatcagtattaatggatcaaaaattcatcgaatatactgttttaacatccaaaggcaccaaaatgcca aggggtgataaaacagctatattagattatgaatttaatcttgcaccagataaatattgccaacatatcgcaaaaacaaacactct tatatttagtaagttaaaatccaatgaagtaataaataagtcattagaacaaatgtcccaaactctcttcaaatcctggtttgtgg attttgatccggtgatttataacgctctggatgcaggaaatccaatcccggaagctctgcaatctcgtgccgaattacgtcaaaaa gtacgtaatagtacagattttaaaccgcttccggcggaaatccgttcgcttttcccaagtgaatttgaagaaacggagttgggttg ggtgccgaaaggatggagtattgttcgaactgaagatattgcattgaaaataggaatgggaccatttggttccaatattaaagtat ccacatttgttaatgctggtgtaccaattataagcggccaacatctgaaagccctccttcttatcgatggggataataatttcatt actccagagcatgctgaaaagctcaaaaactctgctgtatatagaaaagacataatttttacacatgcaggtaatattggccaagt ttctttaattcctgaagattctgaatatgacagatatataatttcccaacgtcaatttttcttacgcgtaaatgaatcaaaatcat cgccgtactatttgattcattattttaggtcagaaaaaggacaacatgctctgctttctaacgcctctcaggttggtgttccttca attgctcagccttcaacacatttgaaaaatatatcattcctaaatcccccaatggttttgcttaaagagtttgaaaaatttagcac ccctttattccatcgctttagtaaaaatagaaaatgtggagtctcactaacagccctccgcaacaccctgctcccgaaacttatct ccggtgagctatccctggaagatcttccggatctcagcaccgatacagaagccgcataacgcattttgcccctgtaaaatcagggg ctttctggtaaggttttctactgatacaggaatgcttaccagaaattagccagggttggagcgcgatatgagtctctctttcagtg aagcaaaattagaacaagcgatcattgaactgttacaggatcaggggtatcaacatctgatcggcgataatgtcccacgttcgagt ctcgatcaggtcattatcgaagacgatctccgtcattatttagcggcacgctaccagcctgatggcattactgaagaagagattca gcgactgatcaaacagttcaccacgcttccggcttccgatctttatgaaagcaacaaaacattttgtcgctggctggcaaatggttt tctgttcaaacgcgacgatcggcaacaaaaagatctctacattgaattgctcgacacccggcatctacctgccgcactgcgccaga tatttgacgccgaagatgtcctgttgcaacaggctgcggaactcccgccctcctatattaatccgccgcttaacctgattaagatt gttaatcagcttaaaatctccggcaaagataatcagagtcgtattcctgacggcattctctatatcaacggtctgccactggtcgt ctttgaatttaaaagtgcggtgcgcgagcaggatgctagtattggcaatgcctggagacaactctgcaaacgctatcgccgggata ttccgcaactgtttatctacaacgcgctctgcattattagcgatggagttaataaccggatgggcaacctgtttgcgccctatgaa tatttttactcatggcgaaaagtcaccggtaatgaaaaccgtgaacaggatggaattccatcattgcactcaatgattcaggggct gtttcatccggtacgtctgctggatgtaattaaaaactttatctgcttcccggataaagccaggcacgaagtaaaaatttgctgcc gatatccgcagtactatgccgcccgcaaactctattacagcatcaagcaagcgcgtaaacctttcggtaacggtaaaggcggcact tactttggcgcaacgggctgtggcaaaagttacaccatgcaatttttaacgcgtcttttgatgaagagcgtagagtttgccagccc gaccattgttttgatcaccgaccgcaccgatctggacgatcagctttctgcgcaaatgtgcaacgccaaaaattacattggtgacg acaccatccttcccgttaccagccgtgaagatttgcgtaatcaactggcgggacgcaatagtggcggtgtcttcctgacaacgatc cataaattcaccgaagacaccgaactcctttctgaacgcagcaatatcatttgcatctcggacgaagcacatcgcagccaggttaa cctcgaccagaaagtcatcatcgataaagaaagcggaaaagtgcgcaaaacttatggctttgcgaaatacctgcacgattcactgc caaacgccacctatgttggctttaccggcacaccgattgacgcgacgctcgatgtcttcggtgaggtgatcgacagctacaccatg accgaagccgttcaggatgaaatcactgtacgcatcgtgtacgaaggccgtgcggctaaagtgatcctggactccagcaaactgga ggaagtcgaaaagtattacgaagagtgcgcaaacgcaggcaccaatgagtggcaaatcgacgaaagcaaaaaagccaccgcaacca tgaatgcggttctgggtgatgaagatcgattaaaagccctcgcggaagattttgccaaacattatgaaaaacgcgtagccgaaggt tccaccgtaaaaggcaaagccatgtttgtttgtgccagccgtgaaattgcctgggatttctaccgccagcttaaagctattcgccc tgcctggtttgaagtgaagcaagcccccgatggcgtcttcctgacagaacaggagcaaaaagagttaccgccttctgaaatggtga agatggtcatgacgcgcggtaaagatgacgacgaggcgctttatgatttactgggcacaaaagaatatcgcaaagagctggataag cagttcaaaaacgctaaatcgaatttcaaaattgccattgttgttgatatgtggctgaccggttttgatgttcctgaactggatac tatctatattgataagcccttacaaaaacataaccttatccagactatttctcgcgttaaccgtaaactggaaggcaaaagcaaag ggttagtggtggactacatcggcattaaaagtcagatgaaccaggcactggcaatgtattcccgcattgatgccaccaactttgaa gatattcagcaatcggtgactgaagttaaaaaccatctcgatttgttggggcaagtcttttacgactttgacagtcgggattattt tagtggtgagccacaagcgcaattatcctgcctcaaccgcgcggcggaattcgttctgcgtacccagaaagttgaacgtcgtttta tgggactggttaaacgcatgaaagccgcctacgacgtctgctgcggcagtgaagcactatcacagacagaacgtgatcatattcac tattatcttgctgttcgttcaattgttttcaaactgacgaaaggtgacgcaccggatgttacccagatgaatgcacgcgttcgtga aatgattgcagaagcgctaaaagctgatggcgtagaagaaatttattttcttggcgataaaaaagcggaatccatcgatatttttg acgaagattatctggcgcgaattaacaagatcaaacttccggcaacgaagatccagctattacaaaaattactggaaaaagcgatc agcgacttcaggaaagtgaaccagttgcaagggattaacttcacccgccgcttccaggctattatagatcgttataatgagcggcg agaagatgatgtactcaacggtgaagaattcgatacattcagtcaggaaatgaccgatattatctatgatattaaaacagaaatgg gcacctgggccgatttaggtattgatattgaagaaaaagcgttcttcgacattcttgctcatatgcgcgataaatatcagttcacc tatgacgatgaaaaaatgctgtcgctggcaaaagagatgaaaagcgtggttgacaacacatcgaaatatcctgactggagtaaacg cgatgatattaaagcgaaactgaaagttgaacttattctgcttctacacaagcataagttcccgccagtagcgaatgatgatgttt atatgggggtactggcgcaagcagagaactttaagaaaaatcacatgagttgagtctgtcataatggagtatctcatcagatactc cttctttatctattttgtaagagccaaaatagataaattatgttacgcataaccagctcatttaaactatctggtctgtttcctcc ggttctacaaaaatagataggggtgcacctacgttaccaatactggcatcatggctacatacggtggtcagtttacgcttactcac cattctttacttttttataagcgtcaataggtttgtaagcgactcgtcagaaccgtattgatat (SEQ ID NO: 5) 4 pLG006 acctgccttcctttgatacaattcgtaacaggttactatcatcataaaaaagctcaacccgatgaactcgctaaaaatgagacaaa tcatttatatctcgaaaaaacttgttacaatcatgagcgctacaccgaacttaaccatataaattatgtgtgttttgtttattttt taaacgattacaactatccattatttacacaggtatcaaaatgttagcgcagctttttgagcagttgtttcaatcgatagactcta cactgatcaccaatattttcatctgggctgttatattcgtatttttatcagcgtggtggtgtgacaaaaaaaatatacatagtaag tttagagaatatgctccaaccttaatgggggcattaggtattctgggtactttcattggtattattattggtttactcaattttaa taccgaaagtattgataccagcatccccgtattattaggtggcctaaaaacagcattcattacaagcattgtaggtatgttttttg ccattttatttaatggaatggatgctttcttttttgccaataaacgaagtgcgttagctgaaaataaccctgaatctgttacacct gaacatatctatcatgaattaaaagagcagaaccagactctgactaaattagtctcgggtattaacggtgatagtgaaggttctct tattgctcaaataaaattactacgtactgagattagcgattcctcgcaggcacaattagctaatcacactcatttcagtaataagc tttgggaacaacttgaacaatttgcagatctaatggcaaaaggtgctacagaacaaattattgatgctttgcgacaagtcattatt gattttaatgaaaatttaactgaacagtttggtgaaaactttaaagctcttgatgcctctgtaaaaaaacttgttgagtggcaggg aaattataaaacgcaaattgagcagatgtcagaacaatatcaacaaagtgtcgagtccctggttgaaacaaaaactgcggttgcag ggatttgggaagaatgtaaagaaattcctctggctatgtctgaactgcgtgaagtgcttcaggtgaaccaacatcaaatcagcgaa ctctcccgccatttagaaacctttgtcgccatccgcgataaagctacaaccgtattacctgaaatacagaacaaaatggctgaagt gggtgaactgctgaaatccggagctgcaaatgttagtgcatctcttgagcaaaccagccagcaaatacttcttaatgcagattcaa tgcgcgttgccctggatgaaggtaccgaaggattcagacaatcggttacccaaacacaacaagcatttgcctcgatggcgcatgat gtcagcaattcctccgaaaccctaaccagcacgttaggtgaaacaattactgaaatgaaacaaagtggtgaagaattcctgaaatc actagagtcgcactcgaaagaattgcatagaaatatggaacaaaatacgacgaatgtgattgatatgttcagtaagactggtgaaa agattaaccatcaactatccagtaatgccgataatatgtttgattcaatccagacatcatttgataaggctggtgcagggctgact tctcaagtcagagaatcaattgaaaaatttgctctatccatcaacgagcagttacatgcttttgagcaagcaactgaacgtgaaat gaaccgtgaaatgcaatcattaggtaatgctctgctttcaatcagcaaaggttttgtcggtaactatgaaaaacttattaaagatt accaaatagttatggggcagttacaagcattaatttctgctaataaacatcgagggtaatcgatcatggataagattatagggaaa caattacctaaaaaagatcaagataatgaacattgggtatccatgtcagacctaatggcagggctgatgatggtttttatgttcat atctattgcttatatgcactacgtacgtattgaaaaagaaaaaattaaagaagttgccgtagcctacgagaatgctcagttacaga tttataatgctctggatattgagtttgcaaaggatttacaagactgggatgcagagatcgataaacagactctggaggttcgattt aaatcaccggatgttttatttggcttaggaagcacagagctaaaaccaaagtttaaactcattcttgacgacttctttcctcgcta cctaaaagttctagataattatcaggaacatattactgaagtccgcattgaaggtcacacaagtactgactggacaggaacaacga atcctgatattgcttattttaataatatggcactatcgcaaggtcgtacacgtgcagtattacaatacgtttatgacataaaaaat atcgcgacacaccaacaatgggttaaaagtaaatttgccgcagtaggttattcatctgcacatcccattcttgataaaaccggcaa agaggaccctaatcgctctcgtcgtgtcaccttcaaagttgtaacaaatgccgagttgcagattagaaagattattcaggagtaag agatgaaattatctatcgacatttcagaacttattcaattagggaagaaaatgttaccagaaggagtcgatttttttctggatgaa tcccctattgactttgatcctatagatattgagttatccacgggtaaagaagttagtatcgaagatcttgaccctggtagcgggct tatctcttatcatggccgccaggttcttttatatattcgggaccattcagggcgttatgatgcggctatcgtagatggcgaaaaag gaaaacgttttcatattgcctggtgcagaactcttgatgaaatgcgccataaaaatcgatttgaaaggtatcatgcaactaaccgc atagatggtttattcgaaattgatgatggttcaggtcggagccaggatgttgatttacgggtatgtatgaattgcctcgaacgact taattataaaggaagtattgataaacaacgaaaaagagagatttttaaatcattctcattaaatgagtttttttcagattatagta cctgttttcgtcatatgcctaagggtatctatgacaaaacaaatagtgggtatgtcgaaaactggaaggaaatatctaaagaaata cgagaaaaggcaaattatgtttgtaatgattgtggcgtgaatttatcaaccgccaaaaacttgtgccatgtccatcataaaaatgg catcaaatatgataatcaccatgaaaaccttcttgttctgtgcaaggattgccatcgaaaacagcccctccacgaaggtatattcg ttacccaagcagagatggctatcattcaacgtttacgttcccaacaagggttattaaaagcagaatcctggaatgaaatatatgac ctgactgatccatcagtgcatggtgatattaatatgatgcaacataaaggctttcaacctcctgttcctgggttagatcttcaaaa ctcagaacatgaaattattgcaaccgtagaagctgcatggccaggccttaaaattgcagttaaccttactcccgccgaagtcgaag gatggagaatatataccgtgggtgagctggttaaagaaatacaaaccggagcctttacgccagcaaaattgtaaattctaaaactc cgtgaaagttaaggctttcacggaagataaataaagtttccctgatttgtgactcaaattacaaaagtagtttatggcataacttg tctgatttttatggtgtaacaggtataaaagcatatgctatggttcgcctcatacttaaaacttccctcatatgggtgaaggttaa agcttggtagacagaagacagtcacaatgaataaagcaataaattga (SEQ ID NO: 6) 5 pLG007 acatcccgtcatcatgccatcacgacgcgctgagacgctgaaaaaataaaatcagcaccaccgtcagcgcgcagtgctttccccgc ctcgcccgcccgcttcatgagacggttttaatgcagttgcattatgtcccgctcctcagtgctgcgctccatcctgattacaaaaa ccgttatcaaaaacacatgcaaatagacgcagtcaaatgcgctaccgcctctcgcaataccttcaatttcatgataaaaaacatca tccctaacaagagcattatcctcatgaaaaaagtatatgaactaaccagtgaagaagcactgtcatattttcttcgccatgactcc tacacaacattagaattaccggcttatattaatttcaccacattattaaatgatattaattcatctatccataacaaaaaaattaa aattgaaccaaccgccaaggagctgatgggtaaagatatcaattatgaggtgcttgtcagtaaagatggtctatatagctggcgta ggataacacttatcaatcccctttattatgtctacttctgtagaaaaatcacagcaccagcaacctgggaaatcataacagaaaaa ttcaaatcttttgaatcaaacgacctttttacatgttcaagcatccccgtcagaaaagacaactcgtcaaacattgctgcgtctgt aatgaattggtgggaagattttgaacaaaaaagccttgcccttgctcttgaatacgaattcatgttcagcactgacatctcaaact tctacccatcaatatatactcatagttttgaatgggtattcatatcaaaagaagaggcaaagaagaaaaaaagcaaaaataaccca gggggattaattgacagccacattcaaatgatgatgaacaaccagacaaatggtattccactcggcagcacattgatggatacatt tgctgagcttatcttgggtcaaatcgatatagaattaagaaaaaaaactaacgaactcaaaataataaactacaaggtagtacgct accgtgatgattaccggatcttctctaatagcaaagatgatttagacataatatcaaaatgtttagtcaatgtattgggcgatttt ggtttagatctaaactcaaaaaaaactgaactatatgaagacatcatacttcattcgttgaaacaagctaaaaaagactacatcaa agaaaaaagacataagtcactccagaaaatgctctattcaatatatttattttcacttaaacatccaaactcgaaaacaaccgtta gatatctaaatgattttcttaggaatttatttaagcgaaagacaattaaagataacggccaacaggttgatgctatgcttggtatt atttcaagcatcatggcaaaaaaccctacaacgtacccagtaggaacggcaattttctcaaaactcctcagttttctttatggtga tgacacccaaaaaaaattaacaaagctagaacaactccataaaaaactggataaacaacccaatacagaaatgcttgacatatggt ttcagcgaactcaagcaaaaataaacctagagtggaataaatcttataagtcagctctatgcgtccgtataaatgatgaactcaca aaagagaaaacattttctgtaaataatttatggaatattgactggatccaaggaaaagaaacaagccccaataaagccaaaatatt atccttgctaagaaaaacaaaaatcgttgacacagataaatttgataaaatggatgacaatataacacctgaagaagttaatctat tctttaaagagcacagcaattaatatcccaaagccatgttagtaacataacatggcttttttaaatcactcattatcagttatcaa gaacgaacataacattctattccgaggag (SEQ ID NO: 7) 6 pLG008 agttttttaaaggggttattttctaattatagtcccttaatttccattttcgtgtctaattatttgacattagtccatacaatagt gactctaagatttaaggataacatcaactttcaacataagcacaataactatttttttattataattgaaaagagaattgaattat tacctataaaacttaaaggagtataattatgaaaaaagagtttactgaattatatgattttatatttgatcctatttttcttgtaa gatacggctattatgatagatctattaaaaacaaaaaaatgaatactgcaaaagttgaattagacaatgaatatggaaaatcagat tctttttattttaaagtatttaatatggaatcctttgcagattatttaaggagtcatgatttaaaaacacattttaacggtaaaaa acctctatcaacagacccagtatattttaatattccaaaaaatatagaagctagaagacaatataagatgcccaatttatacagtt atatggcattaaattattatatatgtgacaataaaaaagagtttatagaagtatttattgataacaaattttcaacgtcaaaattt tttaatcaattgaattttgattatcctaagacacaagaaattacacaaacattattatatggaggaataaagaaattacatttaga tttatctaatttttatcatactttatatacacatagtataccatggatgattgatggaaaatctgcatctaaacaaaatagaaaaa aagggttttctaatacattagatactttgattacagcttgtcaatacgacgaaacacatggcattccaactggaaatctattgtct aggattattaccgaactatatatgtgccattttgataaacaaatggaatataagaagtttgtgtattcaagatatgtagatgattt tatatttccgtttacttttgagaatgaaaagcaagaatttttaaatgaatttaatctaatctgtcgagaaaataacttaattatta atgataataaaacgaaagttgacaatttcccgtttgttgataaatcgagtaaatcggatattttttctttttttgaaaatattactt caactaattccaacgacaagtggattaaagaaataagcaattttatagattattgtgtgaatgaagaacatttagggaataagggag ctataaaatgtattttcccagttataacaaatacattgaaacaaaaaaaagtagatactaaaaatatagacaatatcttttcgaaaa gaaacatggttaccaattttaatgttttcgaaaaaatattagatttatcattaaaagattcaagattaactaataagtttttgactt tctttgaaaatattaatgaatttggattttcaagtttatcagcttcaaatattgtaaaaaaatattttagtaataattcaaagggc ttaaaagaaaaaatagaccactatcgtaaaaataattttaatcaagaattatatcaaatattgttgtatatggttgtctttgaaat agatgatttattaaatcaagaagaattactaaacttaattgatttaaatattgatgattattctttaattttagggacgattttat acctaaagaatagttcatataaattggaaaaattattaaaaaaaatagatcaattatttattaatactcatgccaactacgacgtt aaaacttctcgtatggcagaaaaattatggctatttcgttatttcttttattttttaaattgtaagaatatttttagtcaaaaaga gataaatagttattgtcaatctcaaaactataattcaggacagaacggatatcaaacagaacttaattggaattatattaaaggtc aagggaaggatcttagagcgaataacttttttaatgaattgatagtaaaagaagtttggttaatttcttgtggtgagaacgaagat ttcaaatatttaaattgataagtatttgaaatctattattagttcctgaaaaaatagctgtgtcttgtcaatataaatgacaagac acagctattttttttaattttgaaatttataatt (SEQ ID NO: 8) 7 pLG009 8 pLG010 9 pLG011 gcccatcattgcattaagtgatgggcggagcctttggcctctaatctggaactagctgcgattttcagactcgaatgctaaaaggt cgtttcgcacctgaaatcaagctgctagagttctcttacggggttctcccctcgcatacgcgctgtagtaactgcggcgtaagagta aatgtctgcacatatcatgcccgccatgatcattcggtaattcctggcgtgactggaagggagaccccgtgccacctatgggccata tttttggaccagtgagtttcgtgaagttgccgccggagttgatgagtgaggccagtcttcttgctcatcttggcgttggccgtgccg aacttaatgtcattagttggtacgccggtaggatgtaccataaattcgacattaaaaagaagtctggcaaggcgagggtgattaatg cgccggatcgtcggctgaagatgttgcagaggaagatcgccgatttgctgacgcctctctatcggaggcgcaaccctgttcacgggt tcgtgatcggtcgttctgtgaagaccaatgctcagtcccatctgggcagcaagttcatcgtcaacttggatttgaaggatttcttcc cgtccatttcgtacggacgcgtgacgggcgtgctgcgttcgcttggcatgaagcgcgaggtcgcggaagctattgcgacaatttgct gcctcaatgggacgttgccccaaggcgctccgagcagtccgatcttgtccaatatggtttgcttccgcttggatcggaggctgcggg agttagccaaggacgcccgttgcatttacacccgctatgcggacgacctgagcttttccagctaccagccgctaatgggattgttcg aaacgacaccaccggcttcagggcatttctcaccggatctgttgtcggaaaaacttaagcagattttcagcggtaacgggtttgtgc tgaacccggacaaggctcactatgctgacaagcattcgcgccgcaccgtgacaggcatccggattaacgaggctctcaatgtcgacc ggcggtttgtgaggaatttgcgggcagccctttactctgttgaaactttgggactggccgccgcccaggcaaaattcaaatccttgc atggtggtaaagctgacgtcggccagcacctgcaaggcaaggtatcgtggttggggtacatcaaaggcgcatctgacccagtctttc ggagtgtcgcatcccgtttcaacgctgcattcccgccgctcgcgctcgatattttgcccagtccccaagaaatacgagaacgatcag tgtggctgattgagcactgggaaacagggggtgaccaaggcacggcgtttttcatgaagggtgtcggtctggtaacggcagagcatt gcatatcgccgtccggtatagttgagttgtatcacccgacgaagccgtcgaataaattcgcggcgtccgtgaagcatcgatgcccag atcgcgatctggccgttctcgaccatgcaatccccaacaacgaattctatgagctcgaaaccgccggcaaggcagccgcgacaggcg atgccacgaccgcgatcgggtatcccggttatggacccggcgacagactgaacatccgacctggcgcagttacgtccctgccaacta agagtgcggtgaagatggtcgaggtccagcagatgctgacgccgggcatgtcaggagggccattgctggatgtggatgaccgcgtcg ttggcgtcgttcacaagggcggccatgatcatggtcggcaactcgctattgccatatctgaactgcatgcttggctgccctgacctg attagccgaaccggctaatcgcgcaggcgccgaaccagccgtttccagcttgcttcactgttcatccagtcaggccggtccggttgt cgaggcgttggagcaaatcgttcaggatgtccccgacagcgcgtgcagcgcaggtgcgatccgacggtttccatagcggtgttccag caatgcgcgaggaaccagcggttgagttt (SEQ ID NO: 9) 10 pLG012 tctatctaaaagtatacatatagtatttcaatgaaggttatattatattttgtggctgttttctaattttatcaataagattattg caaaaggctgataaatataatagctttattatatcggaggagttgatttaactttcctatactatctgtataggctaataccaatg gcaattttgccctcaaattggtctccttaatgtttatcaacgtgttatacggtagtgataaaacctcctccgatatttttctcatg aattgggatattttaaatatgttttgctcagtaaccaagttgcatgaatgtaaaaatgttgaacaattatactattttttaggatg tgaagaggctgaaattagtaggtttttatatagtggagtaattaaataccgctctttttccatacttaaaaaaaatggtaatttta gaaatataagagcacctgtaaagtatttaaaagaaattcagtataagataaaggatgagctcgaaaaatattataccccgaaatca tgtactcatggttttatagctggaaggaatataatcacaaatgcgaaacctcatataagaaaagaatttattttaaatatagattt aaaggatttttttgattcaattaattttggacgagttagtcgtttatttcaaagccaacctctaaacttgccagagaatgttgccc atgttttggcacatatttgttgctataatagagccttacctcaaggtgctcccacatccccaattatatctaatatgatatcttat cgtttagacagacaattgaaggagttggcaagaaataatgcgtgtacttataccagatatgcagatgatataactttttcttttac taaaactaaaaagtatcttccaaaatcaattgtttctttaagtaaagataataacattatactaggccatgaattaaaaaaggtaa ttgaagataattggtttgaaataaatgaaggaaaagtaaggttacaacataaaacacaaagacaatcagtaacaaatattacggtt aacactaaaattaatataagtagaaaatttaaaaaacaaacttcagctatggttaatgcattatttaaatatggagcatctaaagc tgaaagagaatattttagtaagtatcacaagggttatatagcagaaaggcaatataataagattaaagaaaaaccaggtttattat ttacacaaaaagtaagaggaaggttgaattatatccgattagtttgtggtaagaataatgaaagctggagaaagctcatgtataaa tatactgtggcaataggacaacctaatgaggagtacaatagaacattgtgggatattgctggtgattcaacgttcattctttggtc gaattcctcacaaggaagtggtttttttcttgaaaatattggtttagttacaaatgagcatgtaatcgaaggaatagaaaacagca atattaataatgatctaataatactttggttaccaaatgaaagaaaagaatatattgagttacacttagcttggaaagatgataat actgatttagctgtaattacttctaatatatcttttcttgacataaagcctttacaagtagagccagttcctatttatgatatagg aacagaagtatatgcagttgggtatcctaattatgacgccagaggctcaattggaaaacctactattattacagcaaaaataacga gtataattactcgagaaaggcaagaaagaatcgttatagaccaaccaatagtacatgggcatagtggtggggtcgttttaaatgct gatggacgtgtaataggcattgttgcaaatggaaatgccgagggggaattaagagtagttcctaatgcttttattcctattgaaat attattaaatgagcacaagttacgaactaaatcataaaattattattcttaaaataattaaatattttttaaaaccactagtttga taactagcggttttttatttttggagtacat (SEQ ID NO: 10) 11 pLG013 12 pLG014 ttataacaagcatttatagtttaaagatactttttctaatcaagtagaacctttgggtggcatcggcctatctcgcttttgtccaa atgtgggctgatggggcatgaaaaatggaaatgccccattcctacttagtgctattactcattcatacctcgttaacgtgattttg gattagttttattcactgtatatatcaacagttataatgaagcgcggtgattttatcgctttagttctgtttttaataagaaatat ttcttgttaaaaacagaagtgaaatcataactaattgaaaattatatcgtttaacatttcagtttgtatttaataagactgattaa atacatttcttacttttcacaccctctttcaaatcggtgagtataagaaagtgccagtaagctcataatatttaacgattatatcg agtataatatctatcttttataagtatatttttgcgtaaaagtaagaatgcttattaatatactgttagttgcatcaagtgatgca ttgcattctgtttagtattgttatagattctgccgcaagaggcgagagtttaactttctgctgttaatctgcggcggtcataagca tgtttctttttaccggttttcagctagtctgatgatgccgttacgctgtacaagagaaaacaaaatcgcctcgttctttaagggtt tgttactttggtagacatttcattaatttcccaaattgcagctaaagctgcattctcatccaatattcaagtacctctacctaata aattgaaagattgctcatgcgttgaagggctgactcaatatctgggttttacgaattatgatgagctgaaaaaactgatatacccc tcagttgaccacctatataaaggctttagcattcctaaaaaaaatggcgagtttcgaacgattgatgcgccaaaaaaggagctaaa aacaatacaaagtttcctttcgaaggaattggttcaagtttactctcctcgtaatgctactcatggttttgtaaaagatcgaagta tagttacaaatgcgtcgaagcatgtagacaaaaaatacgtactcaatttagatcttgaggacttcttcggctcaattcattttggt cgcgttcgaaacctgtttcaatcgcatcctttgaacttacaccattcggtggcgacggttttatctcacctatgctgccacaatgg caagttacctcaaggcgctccaacatccccgatcatctcaaatatgatcgcttatcgtttagacaagcaactgcagacattggctt ctaaaaatagatgcacatatacacgctatgctgacgatataacattctctttcacacaaactcgtgggcgcttgcccaaatctatt gttacgttaactcgcgatctacaactctctttgggtaatgagctaaaggagcttattactgagaatggttttgttatcaattctga taaaactagaatagctgcgcgaagtaataggcaagaggtcactggtgtgatcgtcaatgagcgtatgaatgtgtctcgaaagtaca ttaaacaaacacgttccatgctatatgcatggaaaaagtttggtctcgaagatgctgaagaaacctacttgagaaagtttcatgga aaaacagtgtttgagaagcaccagcggcgaattgacgaaaagaaagggcagttttttaagaaagttgtaaaaggcagaattaactt tattaaaatggttcgtggtgctgaagatttaatatacagaaaaatagcttacgaattctctgtattaattagcaagcctaaaccag agcttgtgcaaaccccattggataaagcgtgtgattcaatatttatcgttgaaaatatggtggagaagagccaagggacagcgttt ttgctgaagggaattggtatcgttacaaatgaacatgttgtgcgtggaatcgatgaggaactgtcagatcttttggagctatttag gtatcatgagcaggaaactaagcgtccagttaaatttcaaaagtcatgcagatctagggatttggctattctaaaaccaactacaa gctacaacggtattaagcgcttggatgttggtgatgatagtcagatcggtattggttcggttgtaaccgtcttaggttttccccag tattcgcctggtgaaacgccttatatcaatacaggcaaaattatccaatctaaagtattgtttggtgaacgcgtctggttgctaga tatacctgtaatccatggaaatagtggtggccctgttcttaatgaccgtcaagaagttatcggcgtagctgcaataggttcgccaa cacatgaccactcaacgaaactccatggcttcataccaatttccacgttattagcgtatgtggaagaatgcaactaacaaataagg atatgtgtcgcgaagccgacacctatccgaagtgttggacaagcccaagccaccttatataagtaaataccatcaagagtaatgtc aaatccttacttttcctaatctctaaaagcctaaatagaacgaacggtctaagaagcttttgtccaacaacgagctagcttatgtg atagctagtttgtgatcaaactttagatttttacactctacaaatagcttgaaaagtcacatttccgatcagactta (SEQ ID NO: 11) 13 pLG015 14 pLG016 cgttaataattatgttgttagcttaccacatttcattatcataaatacttacagtaggtaagataatgtaaaacatcgcgattaaa tataaacttttcaaaaatgctgttaatattgatgaatatatatagtataatttacactgacagcaagggtaagaaaaaattgactt tatggcggtgaaatcgccgtctgttatttaaagggtatacttaatttacacgcttattttatcttcgaagttttattcgatttgtc taatcgctattaggagaagggtagaattttaacccttgctgttgtaaataggaggggattgctatggtttataagttaaattttga attacagagcaatctagaggatattaaacaaaatttcaagaatttatcttgttttgaagatgtagctctccttttagaggtaccaa aagaattattgtggaaagtacttataaaaaataaaggagctaattataaggcgtttaaattaaaaaagaaaaatggttcagaacgt gttattttttcgcctactttaagtttatctattctgcaaaaaaagctagcttatattttggagtctaactataaaaaccataggca atcatatggttttgtaaaaggaagaggaatagttgataatgctcaaaagcatttaaataaaaaatatgtactaaattttgatatag agaattttttcgaaagtataacctttagaagagttagatcaatgtttatgacatattataaatttaatgaaaaagttgctacaacc ttagcaaatatatgttgtcatccgaatggttttctgccacagggagcagcaacatcccctatcatatcaaatattatatgtaatag aatagataaagagttttctaaattggccaaaaacaacagatgtcaatatactaggtatgctgacgatataacgttttctacaagca ggagggttttccctcatgatattgcatatataaaagaggggtctatttttctgaatagtaatgtaattagtattgtggaatatcag gggtttaagattaataaagaaaagacaagacttcagaattatagacaaaatcaaactgtaacgggaattacggtaaatgaaaaatta aatgttaaaagaagctatgtaagaagaataaggtcaattcttcactgtattgaaaaaaacgttgaagatttacagaaagcagaacaa attttcgaagaaaaatacccatttcgtcaaaagaaatatcttgataatattaatatgtttgctattttaaaaggtatgatttcaca tgttgggcatgtaaaaggaaaagatgaccctttatatttgaaattagcaaagagatttaataaaatatcttatcttagtgaaacta tatctccttttaaattagaatctttaaagaaatttcatgaaacttatacatatataattgattatgatgataaagttcctttagtt tgttttgaaaacgataaaatggaggaaatattatacggtcaaggaacgggctttttattaaagggagttggcttaatcactaatgc tcacgttatagaagatgcaatagaagctattaaggacaataaaaaatttaacaatgagtatggtatctcattttttagaggtaatt atcctgatttaaaatataaagcgaaagtatccaaatatgacctagataaagatattgcaattttagatataaaaggttttaatata gacaatcaaggatatgaatataacattgacatgaaagatgggcagaaaattgaattaatagggtatccagactacaaaatagggca agaaataaaaatcgaaactggccacctaaaaggtattagaaaacatagagattcaaccggaacgttccattcacgacgggaaatat cggcaatcatatacggaggaaacagtggcggacctataataaatgaaagtaatgaagtcataggagttgcagttaaaggtgctacc cttcatggtgtttccccaagcgagattattccaattgaagatgtaattaatttaaactccagtaactcagaggtcagctccaagat tgcaactaagcctcattaaaagatttaatattttaatgcgaaaagtcgatttttaatcaatctacttttttatttttcattttaag ttgtaaatatctcttacaatttattttatttcaacgacatatttgggtatc (SEQ ID NO: 12) 15 pLG017 gtggcaagattataccccatcaggcataagatgctttgacttataacgcatcagtttgaaacacaatggtgatgggggtcacaggg gctgacatgtacttttaagattaaaaagcattaacatctacttttgaagaaaacagaaaaaaacaatcacaaacctttaaaaacaa aaactatgccaattattaataaaaagtatcaagagcttcagttaacagatgagtacattaccgatccactgctcatggccctagcc tggaagaaaagccatcactacatacgtaccacaaattggtatgctgacaactttgaactagacctgtcggctttggacctaatgca gcactgtaaagattgggtcaagagaatgcaggacaaaaaagaatttaaattttcagagctacaacttgttcctgtaccaaaagcct gtaaatgggagtttaagactgtcgaaaataaggttctatggcaaccttgtgatgaaaaagaacttaccctacgcccccttgcccat atacccatagctgaacaaaccatcatgacattagtcatgatgtgcctagccaatacaatagaaaccaagcaaggaaacccagacac cagctatgacatcgtccaccagaaaggtatcgtcaattacggaaatagactttattgtcagtatattgacgataaagcagagcaca gcttcggtgcaacagtgacatatagtaaatacttcactgattatcggaaatttttaaataggccttatcattttgcgtcaaaagcg caaggtgaaatttcgccggacgaagccgtttacatcatagaactagatcttgcgaagtttttcgatttagtaaacaggaagactct aattcaaaagataaaaaaccatatcagtgagtcaataaacaataaagaaaacccactcgccaatcatttatttaaatgttttgcaa actgggactggactgcatctagcataaaaaattatgacatatgcaagtcagacgaagtaacagaaataccaaaaggcatccctcaa ggattggttgcagcagggtttctatcaaatatttacttacttgaattagatcaattcttgcataataaaattaacacagacataac tgatgacattaaatttgttgattactgtcgatatgtcgatgacatgcgatttgtggttaaggttaaaaaatcaaaaaataataata ccgcattcataaatgatgtaataaccaatcttcttaaaaatgagatagataatcttggactgataattaatcctaaaaaaacaaaa gtagaaatttttagaggcaaatccgcaggcatctcgcgtagcttggaaaacatccagaccagattaagcggcccaatatcaatgga tagcgccaacgaacaacttgggcatcttgagtcattattaagtctgacaaaaaccgattttgaaccaccgaaaaatggtaaatcaa atagattagctgagattgaaaaagaccgtttcgatgtcagggaggacactcttaagcgcttttctgccaataaaatcagtaagata ctaaaagagttaagacatttcatctcgcaggatatagatactgatggggaggttattgccggggaatgggattatctgcaagaacg tttggcacggcgttttattgtctgttggagccatgacccgtcactggcactgctactcaagaaagggctggaacttttccctgatc ctaagctattagaccctatacttgaacagctttgctcactcattgaaagcgataatgaaaaacaaagtgcagtagctacttattgc cttgctgaaatatttcgacattcagcaatgactattcataaaaaagacacctatgcattccctgcacaagccaatgtggatgggta ctttgaaaaaatacaacattgcgccgcgacattcattaataagcgcagcgcctctgacaacgaaacttggaacctgttaattaatc aggctagttttctgttgcttgtgcgtttagataatacattagaaaaaaatggcactgatgccaggcatgatcttatcttaaaactg gcatcaggctttagaacaattacacttcccactaaaatggatagcaagactatagcctcatgtattttgttggctagtcaattagt taaagataacaaaccatttattcgctcctgcgcttctttgtgcgaaagaatttatgacaaagaacacgtcataaaattgaagaaaa tagttagcataatatcacatcaaaacttatcattgtttaaatccttagtttatcattcacgacctttacaacagaagtggctaaac tcagactccgtgaaaataataattaatgaatgccatatagatatacaacctttggcgacttctttaggcatgataaaaagtagtca ctcattacttagaatcatatcaagacctgataacccatttgccaatgagataatggcattaaaactgatgcaagcccttttattgg acaggattgtttgcctggataataaaaaagattatcaaataagtgtagcaaacaccaaagtgacgtttcataactactccaaccct ccaacatcgaatgtcttcgatgcaggaatggatatggatgcaaaattattcaaatcatcgggatgggtcgattctattttcacgga tgatgcagacactcaaatattgtatagagttgccatgtgcatccgttcagtactactcggcaaacaagactggacagattttggtc aagcaatitcccccaaacagggttatcggggiattaaaactagtagagacaaacgtcaattggggatgatgacaacacctgagtcc attgccggtgagaactctcaggtttctggttggcttaccacactcttatccaagttgcttgcctggccgggaatttcagtgggtga taatggatatcaatggccagcaatttttacagtagatgctgtcagaaaactagttgatgctcggctgagtaaacttaagcaggatt actgcaaactatcaggaactccgggacttacagaaaaaatacagttcaactggtctgactcgaaaaaagccctaacagttgctatg gtccagtcaaaactgcctgcaacgaaagattttgtcagccatggacttcttttaaactccgcaaagtatagagtgattcatcgcag acatgttgctgaagtggctgatttagttgtaaaacacacgcttgcacaaaaaacaactcaacgaactcatggtgaaaaaatagaga acattgatttaatagtatggcctgagctcgctgtacatagtgacgatttggatgtactcatcgccttatctagaaaaacgaatgca atcatatactcgggcctgacatttattgagcaacctggaatcaaaggaccaaataattgtgccgtttggattgtcccacctaaaag caatagcagccagaaagaaatgataagacttcaaggcaagcataatatgatggaagatgagaaaggccgggttgaaccctggagac cataccaattgatgcttgaacttgttcacccccaatttactgataaaaaaggatttgttctcacaggctccatttgttatgacgca accgacatcgcgctaagtgcagatctcagggataaatcaaatgcttatcttgtagcagcattaaacagggatgttaatacattcga ttccatggttgaagcactgcattatcatatgtaccagcatgttgtgctcgttaactcaggggaattcggaggatcttacgctaaag caccttacaaggagccgtttaatcgtttgattgctcatgttcatggcaatgatcaggtagctataagtacgtttgaaatgaacatg tttgatttccgtcgtgataatataggaaaaagtatgcaatccgggttagataaaaaaactgctcctgcaggaatcataatgtaata aatattagatatttttatattagaggtgaggagatggcgtcacctctaatattttcgctgattgtatttagcatcaaataataaag gtacaattaatttaagtgactatcatgaaaaaattagttccgccatatcaagtaaccccggcacaaatctatcgttccgttgccag ttctacagccattgaaaccggaaaac (SEQ ID NO: 13) 16 pLG018 gcttatcccctccctactggtaacagcgttatcgaacttggaataccatcatttatacctatatctgttggtagatgtgcattgaa gtgggttgaccttgagagagccagtatcgcgggcgcaggaatgacaggtaagcactaaatttcaggcacaaaaaaagctgccctta agcgacttgattgtatcttttggtgcgaaggccggactcgcacataaaacttaacctcatgatttaaaaaagataacaaaaaacag tttaattttataccaacacagataccaacacgaaaattcattgttcttgggtatcgaacccggacaaacatgactgagttgtatta gctcagatttgacctgacacagttatggcacagatctcaacctaatctgacaggcagctccgtatcagaagcggaagtgatgacca agtttaagcatcattcttggcttgtatgagaatggcactgatctagcgatcagtaaaacttcatcgcttcatcgaaatgccctaaa actttagattaggagaaagttctatttatgccagctacaatttttcgggggagttaccttaccgctaaataaaccgaaaatcgatg ctggacaatctctaactcggtggtcaattttcgttgaccactacataatggtcctcctgatgcatctgatgtatcaggaggaccgt ccttaaacacgacaaaacctgtgatacttaccatggattcctctatgaaggaaaggtagtatagccattttgggtgatacatacag tgaatgtcattgctgtagttgaagtgagtaagagcgcttaagattaagttgagagaaaatgaaactacttgataaaaagtattaca acctcgagcccaaatatgagtaccttaaggactcatttattttaggactggcatggaaaaaaacagatagttttgtaagaactcac aattggtatgcagatattttagagctggacaagtgtgcgtttgatattagtgatgaagtcactaattggtcaaacgagatctcaaa gaacgctctttccaaaagtgatattgaattgataccggctccaaaaggagcaagctggttcattaatcaaggtaaatggactacca ataaagataatagaaagataaggcctttggctaacatatctattagggatcagtcttttgctacagcagtaacaatgtgccttgct gatgctatagaaacaagacagaaagactgttcgttgagcaatcttggctatgctgagcatgtaaagaacaaggttgttagttacgg aaataggcttgtctgcgattgggacaatgaaagggcaagatttcgttggggaggaagtgaatattataggaagttctcttccgatt atcgaagctttctacaaagacctatctatataggcagggaaacagtaaataaagttagcggaattgatgatgtatatatcatcagt ttagatctgaaaaattttttcggttctataaaaataaaccttctgttagaaaaaatcaaaaaaatatccgctgatcattatgcagc taaattcataaatgataatgaattttggactttggcgaatcggattttaagttgggattggcctgaagaatctttatctttacttg agagtttggatataaaagaaaaaaatgttggtcttccccagggattagcttctgctggtgctctggcgaatgcatatctcattgag tttgatgaatctttaatttctaagcttcgtactaagatagaagacagccaaataatactgcatgattattgtcgatatgtcgatga tattagattagtgatttcaggagaagcactagaaagtaataagattaaggaatctattcatgcattagttcagggcattcttgatg agacattggctcaaaatccgtcagataatgaaccatatttaaaaattaacgatagcaagacttatattcttgagctttcagacatt gacaacggaagtgggcttacaaatcgaatcaatgaaattcagcatgaagtaggagcttcgagtatcccagagcgtaacggactcga taataatatcccggcacttcaacaattattactgaccgaacaggataatttttccgaggatgttgatagtttatttcccgggttta aaaatgataagtcgataaaggtagaatctgtacgtagattttctgcccataggctggaaaaaagtttggctaaaaaaagcaagcta atttcacctgaggagaggaaacaatttgataatgaaacctcactgattgcaaaaaaattattaaaagcttggctaaaagatccatc aattatggttatcttccgcaaagcgatagctatcaatcctaatctagatgcttatagcaccattcttgaaattattttttcaagaa tacaacgcaatcgtgataaacgagataaatatataatgctgtatcttctttctgatatatttcgtagcgtcattgatgtctatcga aacctagaatcagaatacgtcgacgattatcaaaaattgatgggtgaagttacattgtttgcccaaaaaatactttcctgcaaatc ttttattccaaattacgcatatcagcaagcattattttatctcgcagtgatcaataaaccatttatagctagtaataaagcttctt ttgatcttgcaaggcttcaatgcgtcttaattaaacagcatttagaaccgttgaatagtagtgatggatacctatttgaggtatct gctcaaatcagtaaagactaccgagcaaatgccgcttttctactttctcatacaaatagtaacaaagtagtagacttaattatcga aaaatttgctttccgaggaggtgaattctggaatgcaatttggaaagaaattgttaggatgcaagataaagataggattaacgaat ttagatgggccatatcaaaatatgagtcaaagccaaatagttcggagcactatctttcatcagtgatcagtttcaaggaaaaccca tttagatatgaacatgcgcttctcaagctaggtgtagcattagttgaactctttgatgatacagagaaaaacgtatggcaacctga tggtaagcagtattctccacatgaaataaaagtaaaattagaaggtaactcaacctcatggggtgaattatggcgtccaaatttta gtatttcatgctcgatagataagaaaggtgaacctggtaaagacccacgctatataagccctgagtggttggcaaattatccacag actcaaaatgatgaacaaaaaatctattgggtttgcagtgtgctaagaagtgctgctttaggcaatgtagattatactcaaagaaat gatttaaaacttgataaagctaagtatgatggtatccattctcagttttacaagcgacgtatgggaatgttacatacaccagagtca attgttggttcatatggaactataacagattggtttgcaagttttcttcagcatggattgcaatggccaggtttttcttcttcgta tataagccaagaagatatattgtcaattactaatattattgagtttaaaaactgtttattggaacggctaggctacttaaataagc agatatgtatttcatcgaatgttccaaccttaccgactgttgtcaacaggcctgaattagcatctaaccattttagaattgttacg gttcagcagttatttcctaaggatactaatttccatccttctgacgtgactttggctaatcccgatgtgcgctggaagcacagaga gcaccttgcggaaatctgtaagctaacggagcaaactttaaatgcaaaacttaaaactgagtctagggaacatacaagcacagctg atctaatcgttttttctgagttagcagttcacccagaagatgaagatatagttagagcactggcatttagaaccaaagccatcatt ttttccggctttgtcttctgtgaacaagatggccgaatagttaacaaagctcgttggattattccagactcttcagagtctgggac ccaatggcgtgtccgtgatcaggggaaacatcatatgaccagtgatgaagtggctcttggcattcaaggatatagaccatcccaac atattatttcaattgagggtcaccctgagggaccatttaaattaactggtgcgatttgctacgatgcaacagatataaagcttgcg gcagatctgagagatttgactgacatgtttgtcattgcagcatacaataaagatgtagacacatttgataatatggcttcagcact acaatggcatatgtatcagcatattgttattacgaatacgggagaatatggaggctcaactatgcaagccccgtacaaagagaaat atcataaattgatttctcatgctcatgggactggtcaaatagcaattagtactgctgatatagatttagcagcattcaggcggaag ctacaaatatataaaaagaccaaaacccagcctgctggatacaatagaaaacattaaggatttttatggatactttagttaagtta gctacaattatttctccattaattagtgctggagtagctatttgggcaattttggttgctaaaaaaaccatcagtgaaagcaaaga aattgccaagaaaaccatcgctgatacggcctaccaagcatatttgcaattagccatggagaacccacaattttcgaaaggctaca gcgcagattgtagacaggagcgagaccctatgtatgatcaatatgtttggtacgtggctaggatgatattctgctttgagaaaatc atcgaggttgaagtaaacttaaaagatagttcttgggcaaatacgttggaaaaacatttgaagtttcattctgaacattttaagaa aacgaatgttgtcgaagaggctctctatattccccctattttggatctcataagatgtgcagctaactaataacttatcccaatag gattatattccacacgataagcccactggaaaatgtaacatcccaagatagtttttgggattgtttcccagtgggcggaaagtatc atgatagttgtcacccccggtggagctgcaaagatttttatggggtgggtgttacattgcgcgataaatttgaaatcgtggcttta atttctgcttcttgctcaaaagcagactgtcagatttgattgtgtgctgccagtgagaagcgtcagatcaagtctgagctaataca actgagttaagatgccgaaatctg (SEQ ID NO: 14) 17 pLG019 agggatacgccacagcaagaaatagtttacttattcctcattttgtcgactaaaaatcgacattaaacaaaaaattcaaacttaat cactttcgggaaaaatgtgacaaatatatgctcggactggttgcggggagcgtgtaacatggatacaaatcaaaattattgccagc ctcactgatggattactggtgtcaagagccccccttcgggcatgaaacggctggctaattctgtacagactgtaatctaaggacga taacgcatgacatatcaggcaattttcactggctgggatgatctgacgattgaagaccttctggtcgcttaccggaaagcaaaagc cgatagcttctttgagaatacatttcctgttgctatcaaatttgccgagtatgagcaggaattacttgaaaacctgcaaaaactct tagatcttttgcagagcgaagatggattcagtagcaataagaagttgattggcaaatttcgtttgttaccgaaaaaattaaccaca aagaaaaaacatgaatcccaaaatggacacgtccacttttctaatcctaaacgagcagccgaccatttatttaataattttgatct gataccagagtttcgtattattggtgacttcccggttgatagtcacattatctctgcactatggattaacatggtcgggcataaat ttgatgccagcttagataactgttgctatggcgcgcggctaaagcgtattcgtaatgatgaattatttagcaatgagcaggataat ccattccatatcagtgccgtgggttcttttagcccctacttccagccctaccaaaaatggcgtggtgatggcttaaaagctatacg tgacgagttggaaaaagatcgtgacattatcgccgcctcactggatttaaaaagttactatcattttattgatccactggctataa cctctgatgatctctataacacactaaacataaaactgactgaggatgaaaaagcgtttactgcacagttagcagtattcttaaag cactggtctgacggcgcagcggcatttggaaagaaaatagcgtacaaaacacctgttattaatggtggtctggtcattggattaac agccagtcggatcatttcaaatatattgctacaccattgggataaattagtcattgaaaaactatcaccaattcactacggtcgtt atgtcgatgatatgttccHgtaatacgcgatacagggacaattactaataatcacgaatttatgttattgctgcaagataggcttg gcaatgattgcgtttatttgaaaaacgagcaaaaacaaatatggcaaatacagcagggcgagcatttccagggtaagaccaccatc cagttacaatccgataagcaaaaacttttcgtgcttcaagggagggctggaatagacctgctcgacagtatcgaaaaggagatcta cgagctttctagtgaacaccgcttgatgccttcaccggatcaactggaacactccaccgcagctaaagtcctttccgctgccggta gtgtaggtgaaaatgccgatactctgcgccgtgcggatggattaaccattcgtcgtttgggctggtcactgcaattacgctacgtt gaaacactggcacgagatctgcctccaagtgaatggaaagaacagcgggaagagttttatcagtttgcctacaaccatattcttag ggctgataatctatttgcacattttagttatctgccaaggctgcttggctttgctatcagtatgaatgaatggcagcacgcggaaa aaattgtacttaaagcttacgaatccatcaacctgttggcatcggtgattacttcaggtaaggaagtgaatataaatggttgcaaa actcgagcagtaaatgatctttggcgctgtataaaaggcacattaagctggctatttgttgatgcagcgacacgatattacagtcc tgacagattatttcttgataaacgttcaaagaaagaagagtgccttgcggatacattttttaatcatatttcacaaagtctgacga atctaaaggatttactggatcttcgctttgattcagcagatttttatttaaaagcgccattggtagctcgagctgatttagcaaag gaaccttataaacagatcgtaaagagtcagtcggcagaaaaacttgttaatcagcgtgatagtaaaaaagaagttaaaatactgaa attaatgagcgactcatcgcttattgatattgacgttattaagctatttttgaaatcaaccaagaatacccgactggaaaaagtgg ctaaaggaaatcgtaagaacgaaagttacctaccttacattttccctacacgtcctttaacacccgctgaaatatcagaactggcc cccgaatgtgttggattaccctccacatccgacaaaaaaccagatgagagaccgtccaccatttgggcaaaatatactcaagcatt acgcggagtatggatcaaaccgacgttgctagcatcggagcaggactcagatgaagcgacaaaaaaagctcggcctaagaaattca ttcatattggcacagacaggaaacataaagttgtcgttgcgctaaccagcattaaaacagaggaggacgactgggctaaaatggcc tgcaataaatctaacttgtcccgttcaaggtaccagcggatttctgaactggttaatgcaacattgaaactatctcctaaacctga ttatgttttattccctgagctttcaatcccgttacgctgggttaacagtattgctgatcgtttgagttcggcgggtatcagtctaa ttgcgggaacagaataccgccacttagacgataatcaactgaagagtgaggccgtacttgtcctttcagataacagactcggctat ccagcgagtgtcaaaatatggcaacccaagctggaacccgccgtaggtgaagatgaggcattattttcaatttatggtaagtcttg ggattcgacacttaatgttaaacaacgtaagccggtatatattcatcacggcgtcaattttggcgttatgatttgctctgaactcc agaatagtaaagcgaggatccgttttcagggcgcactcgatgcattaatggtattgagctggaataaagatctagatacgtttgca tcgttgattgaatcagcagcgctggatattcatgcctatactattttagtgaataaccgaaaatacggcgatagtcgcgtacgttc cccggcaaaagaaccctttatgcgtgatattgctcgtgtgaagggcggtgataatgactttgtggtcgctgcaacgctggatatcg actcgttaagggcatttcagagcagggcaaaacgctggcctaaaggcggcgataaattcaaaccgttacctgaaggattccagttg gcaaagaaccgcaaaaagctaccgccaaaataagaaactgattttcgctattaataatcagggtatttttgcgtgagatgttggta aacatgatgtagcccttgccactcatgaccaatcgcagtatctttctcccgcgcctgcaaaatcaggcgtcgggattagcctcctg aagaaatcttatcggcgacacatgacgcgccagcgtctttttttgtgttgttcgcacggttacatc (SEQ ID NO: 15) 18 pLG020 ttttcaaaggagtttcgctttccaaatatacaagaaatcattatttctaaaggtatctataagtggatgattcgttttattggaac agttgcattctcgttaattaaagcggctgcttccgaccggcgaatggtcattcagaagctgagaatgtggttattttttaaagagg aattggcatgattattagccttgaagagcttggccttgcctaccgaaaagcaaaagtcgatctgtactattcatcccatgtttcgc tggaagcaattgcgtcttacgaagagtccctacatacgaatctgacggttctgcaggaaaaaatacaaggtgacgacgaatcatgg gtggaagagaatgagttcactggcaactggtttctggccacaaaatctgtagacatgtcttgctgggaacagcagcgagaaccgca agctaacggtctcatattttcctcacctgctgaaaagtgggcatatgcttgcaacccaatggctgataaaaacgaacaaaaaaaaa tcaaagccgagtttcgagtaatggctcaatgcagtctggattttcatgttctctcgactctttggatgttaaaagtcgggcatctt tttgatgccaaattatctacctgtgcttacggtaaccgcctgcgccgtactctagatggaaaagacatcaatgcactttcaattgg ttcttttcaaccttacctcagaccttttcgtgattggcgtgacaatggcattaacgccatgcggagcgcgctaagtgaaagcaaaa aaatcgtggcactcactgctgatgttagttctttctatcacgaactgaatcccgggtttatgcttgatccaaccttcgtcaaagat attttggagttggaactcactgctgaacaaagcaagcttaatcgattattcattaatgcgttaaaagcatgggcaattgagactcc gttgaagaaagggttaccagtaggtctccctgcttcagctgttgttgccaacgtagccctgatcgagctggatcgcgttattgagc agcaagtcgcacctatatattacggacggtatgtagatgacatcattctggtcatggaaaatggtgcgaatttccgttccatggca gagctatggcaatggttgttcgcccgttcttccggcaaactggactgggtaaagggcgaggaaaacaaacagatcagttttcaacc aaactacctgcatgacagccagattcgttttgcaaatgcgaagaataaagtgtttatccttgcgggtgactccggaaaaaccttag tggaagctattgctcatcagatttatgaacgagccagcgagtggcgagccatgcctcggttaccgcattcctcgaacaatgttgga actgatttgcttgctgcaactcaaagtaatggcgaagtcgctgacaatttgcgtaaagcagatgcactgactatgcgtagggctgg ttttgccatcaaactacgcgactttgaagcctatgagcgtgacctgcaaccgggcacatggaaaggccatcgccaggcattttttc gggcatttattgatcatgttgtggtgctgccacaattctttgatttatcagtctacctaccccgagtgatccgactggccacggcc tgtgaggactttgtcgaactgcgcaaacttatcttagcgctcgagaatatttgcgatgaagttcgagaaaattgcctccttaccat caaggcgtgtcctgatgatcacctcccttttgaagcagagattattggcaaatggagggctcagctttttagcagtgtgcttgaag ctatcgttgcggcatttcctccgcgtatttccaaggtgggtaagcaaacctggaatgaccatttaaaaaactggcacgcccggtgt gggctagacattcaatattcgggtcgtgatttttcattaaagggctaccaagaacagcaggcgagattattctctttcgacttagc gcacatgccattccgctttattggtctaccaaaagagatgattgctcaacggggcatacccgctccgaaaacagtagcccactgtg cggaagcagcagaattactgcctgatattgtcgttttgggtaatcaggttgtagcaaaatggtgcaaatttaaaatcattccacat ggactgctatttgccacccggcctttcagcctgccggaactctttatcctaaacaatgaggcttatacagcttcagctcagcaaga aatgcgagctattattttcgctgttcgcggttttgtactcggtaataaaacaccttgtgtcgataaacaaggcatattgcaaatcc ctgacggccaatctgctggaaaatatggggttgccatatctagctggaaaacgtccatgtcaagctggactgcggcggtcatgcgt tcagccgatccggatgcaaaccgttacgctcgcttatgtcgcttgcttgatggtgtgatagcccaaccacataacagtcgttactt aattctgccggagctctcactccctgcgcactggtttattagaattgcccgtaagttacaaggtcgcgggatttcacttgtcaccg gcattgaatatttacatgccagtaaagcaagagtacgcaatcaggtatgggcttccttgtctcatgatggattgggttttccttca ctaatgatttaccgtcaggacaaacaacgcccagcactgcatgaagagcaggaattacaacgaatagcagggctagaaatgaaacc agaaaagaaatggacaacgcctcccatcattcaacacggtgattttcgtttttccttgttgatttgtagtgagctgaccaatatta gttatcgcgcagcgctgcgtggcaacgttgacgcgctgtttgtgccagaatggaatcaggatactgaaactttcaatgccttggtc gagtctgctgcgctagatatccatgcttacatcatccaatgcaatgaccgccagtatggcgatagccgcatccgaggccctttcaa agatagctggaagcgtgatgtattgcgagtcaaaggtggtattacagattattgtgtaataggcgaaattgacgtacattctttac gacaatttcaaagtagctatcgttctcctggtaaaccctttaagccggttccggatggatttgagatagagcactctcgaaaaatg ttgccagaagcataagtaaaattggaaaaaaatatcgatgcaggttattaaagatgaggcaacatgccatagtcaatcataacctg cagatgtaatttgaaactgcatgttgagaattacggatttatttgtgtattcaccctcgcataaaaatgaagtagctttcatattc cacactactgataccccctgaaaatatataactaaaaaaaacaattttaaaacatgaggtaggaatagcaatctgactgtgatgta gttatttttttgatgaagataattaggtgctcgttgttc (SEQ ID NO: 16) 19 pLG021 ccactacaccggtgaccatgatttattgatcgttcctccttagtgaaccgattctgcccgcttaaccttaccccctggggggtaga tgtaagcaacggagttctgttcgccgccaggtcaaaccacgatgacttgatcggcaggacagggaccacaatagaccttcaggtcg gaatcagggatagaaggggacatgggcgaccgacagatatgaagatatgatggctatggcggcatctctgcccaccctcaggtcca aagcgaaaggaatcggaatgccccgtatcaacgttgagaaactgctgcttgagatcgaaatcgacaaggtggcagagcgattgggt atggcgcttaggagcgaatcagctacgcgcaagctcacgctgtgcccgttccatgacgataaaactccttcccttctaattgatac gagcagagataattctggacagcattaccactgctttgcctgcggtgaacatggagatgcaatcgatctggtgaagggagttcttc atatcgatttcaaaggtgcattagagtggctgtcaccaaactctactaccacccctgtaaatagggcgagaaaacagaaggctatg cagcctgagcagccagaaggctcagggcttgcgcaagcttataagttatacctgttaagcaatgacaagcaacgactagctaactg ggtgactgatcgcaagcttgatatttttttgatggaagatgcaggattcatatacgcacacaaaaactcactatctaaacaggttt cctcaagaaaagattttggaacgaagcgtgaattagcagcaacattggaagaagcgaacctaatacgcaaaatccttccaagctcg gggttccaaaactactatttaaatctacagtcaatccacgacaacaactatatagactttttttcaggggatcgaatcgtattccc gataagagacgatcagaaaaaactactaggccttgccgcccgggcggtagatgagcaaccagcaaaatacctattctcaaaaaact ttccaaaatccaaagctatttttagaatagagcaagctacaaccactctacgagcattggctaagcgaggcgaaacagatctacgc ttatatatctgcgaaggattttttgacgctctaagattggaaagcttgggatttcctgcagtagcagtaatgggaacatcaattag caaagaacaaattaagattatgaaagggcttagcgacacgctcccttcaaagctagcctctttgacaatctgtatttgttttgatc gcgatgaagcgggattaagaggagcatccgaggctgtactaaaattcttaggcgctaatctcgacgtggtatttgtatggcctact actgctcagcttacaagcgcagaccattcaaacacaagcataaaagatcctgacgaatatttgagaaatttgtccgcgccgcaggc caagtcacttatcgatgtttccacctatggacctgtagtagcagtactagcaaatcagtttggtgtgcatgccgacgaactgcttg aaaatctaaagtggaacagtgccagtcgctctcgaaaatacaggtcatttgagaaaactcgtgctgaactcaggaaagttgtagcc aacccccatctccaatcaagcgacctttttttaaatggccgaacagatcttgactcggcggctcaaatagaatggattgatttttt aagtgtcgacattgcgactgaagccgctccatcggaatgttatcttaccaactcaggcaccagactaaaccacgcccgactgctcg cctatatgggctcacgaagaggagagttgccctgcgaagaatcaaaatgggagcggttagatattgcggcaagtgcattcaatgtg ttgctcgctgaacgattggctaatgaaatacatggacccatcgacccgttcgaggccgtatgggtgccgaggtccttcggcgcaga agagccgagattaaaggtgatgcctcaacctgaggatttaatagcgcatcagtacttactaaatgagctacttacagaacgctggg atgcttccgctctcggtgttacagcattcagccagtgcataccagctgtccgctattaccgcgaagaaagaaaaactgttacgaca ggaatatctaccccctcagataacacccaacctattatacttgaacagacgctaagtttcgcctatcaaattgatatggaggttat tgagggcaggcagccagcttcagatcagggaatgtttcgtccgttcctagactgctggcgagactttatgcagtcccttaaaaatc aagccaaatctataaattacgtgcatgttatccgcctcgatgtcagtcgatattacgaccgcatccgcagacacgtcgtaagagac agcattcaaccatttatacaacaagctctggaaactgtcgctgataatgcaccggcgtttgctgaactgatgaaaatacaagcatc tgcggatgaagcagcggacaaatccgcaataattgtcgagcaattatgcgacatgctctttggctacccataccttagccctgata acgggagaattaataaatcagatcccttacgcggtattcctcaaggcccagtaatctcagcatggttaggctcagtggctttgttt ccagtagatctcgcggcactggaaatgatgaacaaatacaatgtagacggggaaactcatctagggtatgcaaggtatgtagatga catagttttactagctagcagctccgtacttcttgaggaactgagagagctagttgatcaaaaaactcggagcttagacctggcgt tggtcgcgaaagctgacgctattccgccaatgtctgctgaggaatttgcagattatgcaaatcaagggcgagctttagaagcatct ggtccagcgtgggaaccaccgttggctggcgatggtgaagcggggtgggagttttggtcaggcactcccccctcagatagacaatc tgccctgcaactgctatcaaattgggagatatacaaaagcccaatagaaataatcttgcaaacagtgaaaacgtccttcctagcta tggatttacgttctagcgagcttgcaaagggagcaaggctaatatggtacgttgtagcatccgacctcctctcagctgacattgat ccaagcgatgcggcagatttagcgtgggaaatttatgatcgctattggaaggaatgtactgaggagtgtgggtggcagttaaaccc ggatagtttcggatgggaggcaccgaatctgttcgcacttgagggactggaaaagcttatagatcataaaaatagcctccaatcgg gtttaactgctttagaaaataccgttcggcacaaacgcatctctttcctagctagaaccgtgcttggggagcggttcaaactgcat gctcttgaaagcagctctacgcttaagcaccagatagataaaagactagatctcctcgaatggaaagcgtcaaaatcgtgcggaat gcccgttcgtagaactaaatcctacgcagagcgatcaatgtatattcgctcctggcaacccttcaactggttccatgccgcagtag aagatttcatgctcgcggatcagtccagcggatccgacccattgagttcatatgtcactcagttccaatctatagaaaagagcatc agacctaatcacgccgcttcttatgagttcttccggtatttactgccatccgatggcagcgatagcgatcttgagtttttctcaaa aacagagaatcgatactccggcttagcaattcagattttggttgcattagtccctcgggaaagcataatacagattctctcaaata gagcgcgcttactttgtcctctagaagctggtaaaaaactattagtcatgccccctcttcctggcgtcaatcagcaacgtatagtt gcttgccagatcgatagctcctcagaaaacaaaatcaaaaaaatcagctcgtttgagtgctatgaaatagattcaactaaaaccaa taccacatctctagacttttttggtgcaaactctgcgggcgtagttgtgcttacacccacatggaacaccgaagcccaacctcaat ccgccatacttcgatcaaactcagaagtcccgaaaaatcttttgttggaggtatttgagaaaccgtcaaccggtttcccttccgct attcagggattgaagcacgtagcctcactatatagagccattgtggtaataatggctgaatacgagaggcaaaatgatggtttaga gcttatacccgcttggccataccttgccacagatatgacctctgggaactgctacctaatttgtgagggcgtaacgaaaggagaag taggaaaccgagcatttgtaagagacggtgggcgggccctaagaaccattgagataccgatatacgaagcccagttgtggcgagcc ggggttgcgctaagcgattacataggcctgcacgacgatattgctaaatttagctcctccgaatccgaaatacctttggatgcgac aacgcttgccgccccgtcacagtacgtgctacgaagccaacttcgtaaactgaggggtgcctttgctaactcacaaatagggcggc gcgttatgcccccaagttttcttccggcaagtgttgaacgtgcgcttgagttattggagcattttccggaagactcagatagtaca aagatgcagctaatgcatctgcttgccactgaaaccgaaactgcgggaatgcgcgtccgctatgagaaaaatattgaggtcacaga gctcacggtatttctacgtgcggtcgccgacagggttctaacgaaactacccttaagcataggtgaggtcattgctgcaccgacta cagcagtcagtggcctgaggagagacctgagtggggtcttgacccttgccagaagcatatggtcgatggatgaagaagaaaaactc tctccaatttttgcgtggaagatttttcgagctggaattgtaggtattggtatcgctgttgctctacgggggattatagcttcact aagaagccacggggggtttgcacgctttgagggatttgattttccagcggaatgggagcttccccctgccacagcagttttatccg aaccggcgacaacagataaaaccactgatgaaaatgtaagcctcctcgaccatttccgggtactcgtatcacatctcggacaccga atgaggttggacgacaacggcgagccacaaatcccagaagaaatcagcacagaaataagaaaatacgctacagcattagcgggcct cactactaaagactcaactgcggtggacgcaagcgactggcctttctttgatatcagcgaaaaagtttttgataccctaaatatag aattattagagaacgtcagcaatctaatcaaaaacttagattccgcgcttggtctccaggtaattttggttacgcaacaatcatac ggcttcaatgctcaaaccaaacgcttcactgactcaagaggacttgcatgggatataaagccatggatgatctcgcaatacccatt gcgtgctcgccacgttgaggagtgttttgatcaagaccgtagaatcgtacgtgtatggagcgagatttacgaaaaaaacagtcaac gcctgctttctatatcagtactaggcgagcctttcgcatcaattgcactatgtaaggacttggaatcgccttatgccgagactaaa aatgtagacagcaagcacaacactgtattaggtcctagcgagcagggttctgaaagcgcacccatagatatttcaccgattcttga aactgctgagcctgaggccgagactgccttagcagacacacaattaataccaaccccaaaccaaactagcactgaagacagctttg ataaaatagatactgagcgtaatacaacacacaataaaaaactaccgcttaccgacgcaacactcaacgcccgaaagaattcattt agaaatagccagctaacagcctggagcgataggaagtccaataaaaaccctgcccatgttcgggtagctctatttcagtgggacca agagctgagctatgcacaccctatggtggaggccaccccacaaaaatggcctttcagttccgtctgtaaaccagcagttttaaaag aacttaaacgcctatataactctccctatcaagcccttttgaatgcaactgaatctgccggtcaacaccacctatggaaaaacgaa aatatttccctacccagctggggtgagcttcgtcgtcggcgattattgctcaacgcagtgaacgcatgccagtcatttggcgtgga cttattgatacttcctgaatactcagtccgtgcagaaactgttaagtggttaaaagaagagtgcttacccggaaagacggtagcgg ttttagcaggaacatttttagctttcgactccggtccgccccccctaaaacaaagcgcgagcctcaacctcttgtggcccgtaccg cgtgatattgccgaatgcctcaaaccgcttgcacccaaaacaaatgaagatgctatgtccttgagtgacaagattgacaagggcat tgtattgcaatggggcagatcaaagaaataccgatcagtagctctaaatgagttcatccggcctggaactgatcctctcacccccc tgttcatgcccggaaaaataatagatgaattgagacgtgcaaattgggatctggacgctgatggtgttgttaagttgctagccaac acagagttgccacttgcgaatttcatggagctgatatgctctgagattttcctgttcacgagcccaaccaacattccagagatggc aagagattatgtttcaatgtgtgcaagatttggcttcggcgctgcagaagctcaagtctgggcggatctcaaactactatctaaat ggctttcggtctgttccaagcctggtggtgccgactctagacgatcaattttgatcgtacctgccgcgaccactcgtactgctgat tattggatagcaggccaagctggcttgcttgccgccggcactacaactgtatttatcaatggcgtaggatctgggcttaagggtgg cagttgttttattggcagagagagctggaaaacaggggctggttctcacggttacattgagaccattacgccataccatggctggt caaaaggaatttactataatagcaaacatgacccactgagcgaaattgatcaagcattggtgatcgcagatatcgatcctcataac atgcttgaaggcaaacctagacctcagatgctgccagttcccttacagctagtggcatacctaccaatcgttgaaactgtcgacga aacaagcttggaccaaactctctgtgacgcagttcaggttgaccataacaatattgcaagaattaatcagggtcagcgattgggtg gacgacttaaaagtcgaaatgagttctggcaacttatcacgcaaagtataaataatgatgtcgacaacgactttatcattaacttc agtaaatactttactgatgggaaagcgattcttgagcgagcaaactctttcttcaacaatggacaccaacagcctttttcatcggt agttaagctagacctgctctgctctccggcactttacgactggctagaggccgatatgacgttgcgggagggtgaggcgttaccca acatctcagtcccttcatggaccaaataacttcggatagattacgagcccctaggataaagcctgtcgataggggctggtcacatt ccccgcagcagggcggtgccgataatagctgctcacatagcttagagagcagtcaccgcttggcactttggagctgggagagcgtt ggcatcgtagaatcgtcggcagtgaaaattcggtacagctacggtacggcacctagcttctgtcaactaattcaaactacactcaa caccatatactacggtgcctccagctatgccaacctacgttcagctaagaacgacttcactaggcatacatggtcgcccagcaact cataatcccttggtcgcaggttcgagtcctgctgggcccaccaagctttgagagccgcgctttgcgcggctttttttgtgaagcca agcactcagtttggtccgaacaccacgccaaagtgtttttcaagatcgcacatcccagaccacacgatgcacagacttcatgttga agcgccgtcttcagaaataagctgggaaaaggtcaatagctttcaatttgtagcagccaaccgtgatcacaggtagagcacgggtc gatttgatcttgcaatcctttgggcagcaagacccttgggctgttcaccggcgttgctgcacaaccagccacgctggaatcattac tgtcatcaaggttgagaa (SEQ ID NO: 17) 20 pLG108 21 pLG023 atccctgaattccccgaaggtgaacaatccactgttcacccttcaccgtatattaacccgttatcacactgaaattaaaagagaaa aatgaaaggtgaacagtgtgaacaatcaaatcaaaaaaactttctactcccactatagcctgactggtcgtctccaaaacgagcgg aaaagcatcaacaatgaatagttaactgttaactccgcgccaactcattaccacttaactcaatgatattaaatggaaaactatcg aaatgaatactctgcaaaattaaatgcaaaaaaatatatgccagtcaaatttcgttacgcactctcttccaagaaagagataaatg ctttatacgtccaccatactatgttatttttttaatacggctctgccttaaatctgtgaggttgtttcgcctcgaagtatcttatg ttagcacatcacgctaccaatcagcggttagttacttgacgtaactgttaattggctaaagtttgcatagagtgattgggcggagc cgtaaatttagtccataaatacagtaacgaggtagagagtgtctttacatgacaagctactgatgcttagtctcaattcggcgaat aaagaagaagatgagacaatcccggagttacctaagttagagcctcagccctatcaagctggaaataagttgaaatgggataataa agagctgaaaaatcagcccatcacttcaaagaatgacattaatgtaatatgcaaaaaaattgaaaacaaaagcattgtaattacat cagcaaacgatgtagccaatctgttagaagtcccggtcggacaattattatttattttatataataaaaaagataactatagaact tttgaaataaaaaagaaaaatggaaaaagtagaatcataaatgcacctcaaggcggtttatcaattctgcaagagaaattaaagcc agttcttgagtacttttatcgccccaaaaaaccagcacatggatttattaaggataaaagtatattaacaaatgcagaaaaacata caaagaaaaaatatgttgttaatgtagatttagaaaattattttggttcagtcactttcgctagagtatatgggatatttaaaagt aagccatttaatttctctcatcctgcggcgagtatattagctcaactatgtactaaggatggaaaattacctcaaggagcatgtac ctcccctgttctagcaaatttagcatcagcctcactcgataaacacctaacccaactggcacgtagaaaaaacatcacatatacaa gatatgcagatgatattactttttcatttaatcaacgacaagtcagagaaatcataacgctagataatgaaaataattttgaattg ggcgaggcgattatctctgtgatagagaaaagtggcttcagcataaacacaagtaaattcagagttcagaaaagaaatgaacgtca aaaagttactggtctagtggtaaatgaaaaagtaaatgttgagcgtaaatatcttagagttactcgttcattagttcataaatgga gagaagacaagttaacatcagcattgttgtttgttactaaaaaaggttttaaggcaacaaataacgaacatgctatatcaattttt cgcaatcatatttatgggcgattgagttttataaaaatgatccgtggtgaggacttcccgttatatcttaaattaatggctgaaat gagtcatcatgatcctttaaaaacaaaagaagggcttagagcaatgaaagaaactgaaacttacgatgtatttatttgtcatgcaag cgaagataaaacatccatcgcaattccaatttacgaagaattaattaaattaaatatatcaacattcatagatcatgttgaaataaa ttggggcgattcattaatccaaaaaattaactcagctcttgtaaagtctaaatatgtaattgccattctttcggctaattctgtag ataaacattggcctaagaaagaattgcattctgtgcttgcaagagaaatcactgaaggtgaagtaaaattacttactcttgtaaaa gaagcagatgaagcaatagttgctgaatctttgccgctcttaagtgataagctttatatgacctataaagataatccggcagaagt tgcagataaggttcgtgcgcttttaaacaagtgacagctactgtcaaatgtgtataaagtcattgatattttatataaaatcaatg gattgcaatccatataagattccttatgcatcagtgacccggtgctcgcccggtcactgcttcagtcccagcagaactcagacgag gcgcttaacatctaacgggatgccaacccgacgtttggttttatcggctatctagcctatatagaagca (SEQ ID NO: 18) 22 pLG024 ctattgtgagcgagaaacgcgctactactatatatagacagacaagatgcacttactgaataaatactcataacggagaaaccagc tgtatagtgaacaatagatttccagtagcatatttttacttcacttttagttattaatatgataatcataaactacggctctgcct taaatttgtgaggttgtttcgcctcgaaggaactaatgttaggacatacgccaccgttcagtcgatggtaacgcttcttaactagt ggtccgctaagtgatgcgcaaagtgattgggcagagccgaaacgtttacaatccgataggagttggttttgtcgctacatgataaa ttattaatgcataacttcgcattagccaataaaaaaagccctgacttcatatctgaacttcctcaaattgaacctaaaccatacag caatggacataaaattaaatggataaaccacacacttactagcactgaagttactccccctgataacctgattaaaatatgcatat tgattgagtcaggggaaattgctataacatcagtaagtgatattgccaatttacttggagttcctgctggccaattactttatata ctatatcgtaaaaaagataattatcgtacttttgaaatagaaaagaagaatggtaaaaaaagagtcattaatgctccttgtggcgg tctatcgatactccaaacgagactaaagcccgttcttgaatatttctacaggccaaagaaatctgctcatggttttataaaaggaa agagcatcattactaatgctgggatgcatattaaaaaaaattttgtcgtaaacattgatctagaaaactatttcgaatcaataagt tttgctagggtttatggaatatttaaaagtaaaccttttaattttgctcatcctgcagctactgttttagctcagttatgtactca caatggaaaattacctcaaggtgcgtgtacatcgccaatattagcaaatattgcatcagcttctctagacaaacagctcacccaat ttgcaggaagaaaaaaaatatcttattctaggtatgctgacgacataactttttctttcaatcagagaaatattgatataatcaaa aaaaacgacgacggaagttatagtcttagtgaaactatagacaatattatttcaaaaaatggctttaaaataaattatgataaatt tagagttcaaaccagaaatacaagacaaagtgttactggcttagtggttaatgataaagttaacattaacagaagatatataagaa ttacacgttcaatgattcatagatggacagatgataagctaaagtatgcacttctctttgctacagaaaaaggatatcaggcaaag gataataaccacgcaattcaaattttccgaaatcatatttatggaaggcttagctttataaaaatggttagagggaaagactatcc aggatatttaaaactgatgtcatacatgagtcataacgatccattaaaaacccaagaaggattgcgagcaatgaaagaaacagaaa actttgatgtttttatatgccatgcaagcgaagacaaaaaagacattgcaattccaatatatgacgagttaactaaacttaaaatt tcagccttcatagatcatgttgagataaaatggggcgactccttaattgataaaataaatgcagcactagttaaatcaaaatatgt catcgctattttatctgctaattcagtcaataaggaatggcctcaaaaagaattaagagcagttttagccagcgaaatatcgagtg gcgacgtaaaacttttgaccttattaaaaaaagaagacgaggaggtcgtaaacctatcattacctttacttagtgataagttttat atggtctatgataataatcctgaagtagtcgccaacaatattaaatcactcttacaacgataattctctcacaaaagaaaatgtgc agattgatgcgtattaagtattaatctgcacatacaaaaaaaataataaaataatacatttttcataacttgtaggtaacaacaat atatgtcgtaacgaatatttggataacctctataccctattaaccaaccaattaactctatgtaatctcgcagcc (SEQ ID NO: 19) 23 pLG025 cacgtaaatatgaaaactgttagcccacatagcccaacaaaaatatttgatagttaaccttctgttactaaagaaaacaggaaagt aaaagtgggctaaagcttatgcgccctcgatgttgggctagccccaaaaacggtaaatttagcttaagtgcataattggttagctc aaaagcattatttttcatttaaataaattagttaattggtcttgtttagatgattcaactgggctgactactttctttgtatatac tccggataaattttcccagctaacttgcctaatcatcactctgatgccagaaatgaacagaacgcaaaccatctataacttattga ggattttgaaaaaaattgattgggggcttgagttatatgatgactatgctaatttaatacggcacatgcaggtagatttgttggtt gtggtatcgcaatcagtgttaacaaggtcgggagtattcgccctctgactgccgtcaagtcatcttggcgtcaccgttaaatgcgt aagagtacctgcatgtgcattaacataatcaataatggaatttactgttatgtttaaacctacctatctggcaaggctgcaggctt gttgtaacaaatttgaactggctgatttgcttcagattaaagttacatttctgactaatgttttgtatagaataaggccagaaaat caatacaaaaaatttactataaagaaaaagtctggaggagagcgggagatctttgctcctgatgaaaaactgaaagatattcaaca acgactttctgaacttctatatatatgccaggaagaaatttgggcaaaaaataatattaaacaaaatgtatcacatggttttgaga agaataaaactataattacaaatgctgagaggcatcgagataaaaatattgtatttaatattgatattgagaatttcttcccatcc tttaattttggtcgcgtgcgaggatattttattgcaaaccaaaatttcaagttacatccaaatgttgcaaccattattgcgcagat agcctgcctggatggatcgcttccgcaaggaagcccttgttctccagtaataactaatcttatttgtaggattttagatttcagat tatcaaagctagcagtcacatatggttgtagttacagccgctatgcagatgacattacgttttcaacaaacaaaaaaaacatccct gatgcattagtttctaatgagaaagaaaacgaaccaggtaagatattggtagaagaaattcatcgtgcaggcttcactttaaacca taataaaaacagagtgtctaggtgtacatcaagacagcaagttacaggtttaactgtaaataaaaaaataaatgtaagcagagagt atataaagaatacaagagcgatggcgcattctttatactttgaaggttcgtatacacttattgagaaagatggaaaacatagaaag ggcacccttagtgaattagaagggcgatttgcatttatcgatatgcttgataaatataataatgtggaagcaaagaaaaatgcgcg tcctgagagatatgtggttaaaggatttgggttggattttaagcagagacttaactccagagagaaagcatacagcaaattcctat actataaaaatttctatggaaatgagcaaataacaatcttaacagaagggaaaactgacccggtttatcttaagtgtgcaattgat tctttgtttttggattaccctcagttagttagagaggaaaaaaacacaaagaatagagtgttaaaagttaatttatttaaaaccaa tgacaagaaaaaatattttctcgatttgtctggtggagctgcagactattcgaggtttttcagacgacatggtttactttgtaaag cgtatgaaaaacagcctcctaaaaatccagtgataattttattagataatgacacagggccatctgacttcataaatcaaataata aaggattattcgcatctaccaaaaaaagcggaggatgttagaaaaggggcgttttatcacttagagagtaatttatatgttctttt tactccgttattaccaggggataactattcttcactagaggatttttttgaaccaaaagttttgcaaatgaagtataatggaaaaa gcttcgataaaagcaataatcatgacagttctactacatttggaaaagatagatttgctacttatatagtaagggaaaatagaaaa actatcgatttttcattattcaaacccatacttgattcaattattgaaatcaaaaaacattttatcaatctacacccatcaaagtg atggttatgaaaagagataaaaatgctgatgtcaaaagaggcttatgctcggcacagtggagtgagctgccaaactgtcgatgact gggtagccggtggggcggaagtagttatgtcccgtagcaaggttaagatttgctcttgtgtgtggggaaccttagtcaattacttt cctggcgcactgtgttagattttgtaaaattttaaaagactaaagatttaatatcacttctccatggaggttgtg (SEQ ID NO: 20) 24 pLG026 ctatacgccgttatagctgaattttccggtgatttcagggcacattaaccaatttagataatactatagtaatggttgggctgatt tttcaagaacaaaagtaattttcaagctttgtaacatgttgattttccgcttttcgctcaagcgagctttcatctttgcaagccca tatgttcgtttttcaagcgattattcagatacgttaacttcccatggcagtgcatgactatgctgcatgaaatcgcatgatcgatc gaggatcgtctatgcttagaccagccagaaatggcgggcttttgctcatgtcatgcagctgcatgaaaaccactgcataaagtggg caggcgtggcggggatacgagggcgcgctatcacgtaaaataggcaaaatacttctggaaaacagaaagttgaagtgatatgttca taaacacgcatgtaggcagatttgttggttgtgaatcgcaaccagtggccttaatggcaggaggaatcgcctccctaaaatccttg attcagagctatacggcaggtgtgctgtgcgaaggagtgcctgcatgcgtttctccttggccttttttcctctgggatgaagaaga aatgacaaaaacatctaaacttgacgcacttagggctgctacttcacgtgaagacttggctaaaattttagatgttaagttggtat ttttaactaacgttctatatagaatcggctcggataatcaatacactcaatttacaataccgaagaaaggaaaaggggtaaggact atttctgcacctacagaccggttgaaggacatccaacgaagaatatgtgacttactttctgattgtagagatgagatctttgctat aaggaaaattagtaacaactattcctttggttttgagaggggaaaatcaataatcctaaatgcttataagcatagaggcaaacaaa taatattaaatatagatcttaaggatttttttgaaagctttaatttcggacgagttagaggatattttctttccaatcaggatttt ttattaaatcctgtggtggcaacgacacttgcaaaagctgcatgctataatggaaccctcccccagggaagtccatgttctcctat tatctcaaatctaatttgcaatattatggatatgagattagctaaactggctaaaaaatatggatgtacttatagcagatatgctg atgatataacaatttctacaaataaaaatacatttccgttagaaatggctactgtgcaacctgaaggggttgttttgggaaaagtt ttggtaaaagaaatagaaaactctggattcgaaataaatgattcaaagactaggcttacgtataagacatcaaggcaagaagtaac gggacttacagttaacagaatcgttaatattgatagatgttattataaaaaaactcgggcgttggcacatgctttgtatcgtacag gtgaatataaagtgccagatgaaaatggtgttttagtttcaggaggtctggataaacttgaggggatgtttggttttattgatcaa gttgataagtttaacaatataaagaaaaaactgaacaagcaacctgatagatatgtattgactaatgcgactttgcatggttttaa attaaagttgaatgcgcgagaaaaagcatatagtaaatttatttactataaattttttcatggcaacacctgtcctacgataatta cagaagggaagactgatcggatatatttgaaggctgctttgcattctttggagacatcatatcctgagttgtttagagaaaaaaca gatagtaaaaagaaagaaataaatcttaatatatttaaatctaatgaaaagaccaaatattttttagatctttctgggggaactgc agatctgaaaaaatttgtagagcgttataaaaataattatgcttcttattatggttctgttccaaaacagccagtgattatggttc ttgataatgatacaggtccaagcgatttacttaattttctgcgcaataaagttaaaagctgcccagacgatgtaactgaaatgaga aagatgaaatatattcatgttttctataatttatatatagttctcacaccattgagtccttccggcgaacaaacttcaatggagga tcttttccctaaagatattttagatatcaagattgatggtaagaaattcaacaaaaataatgatggagactcaaaaacggaatatg ggaagcatattttttccatgagggttgttagagataaaaagcggaaaatagattttaaggcattttgttgtatttttgatgctata aaagatataaaggaacattataaattaatgttaaatagctaatgaacagccctaacgttatgaacgctaaggctgatttttcg (SEQ ID NO: 21) 25 pLG027 aattccccgaaaatccgcccgtttttactgaaaaaagccatgcatcgataaggtgcatggctttgcatgcgttttcctgcctcatt ttctgcagaccgcgccattcccggcgcggcctgagcgtgtcagtgcaactgcattaaaactgccccgcaaagcgggcgggcgaggc ggggaaagcactgcgcgcaagctatgtgaggtgatgtgtaatacatatcacgaatagcgtaggtagctgttggctttgcctgatca aggtgacagtatacatatcttaaaatataaatatttatgattatttatttgaaagaggttgaataatgatttttgatgaaaaaaga catttatatgaagctctgctgcggcataattattttccgaatcagaaggggacgatttcagaaatcccaccatgtttttcttcaag aacttttacaccagaaatttgtgaattaatagtttctaatgagccggggaaaagaaaattacatggatacgattgtgtcgaatact catcgactaggtataataactttcccagagtattatccttaattcacccaagagcatatgcacagttagcaaagcatttgtatgag tcttgggatgagattcgaaaaatcaaagaaaataaaaacagtatgattaaacctgaaatgcatcctgacggtagactttttatcat gaattatgaggatgcagaaacaagaactgtaagggagttaaacgatggatttggaagacgatttaaagttaaaactgatatcgcag gatgttttaacaatatatattcacactcaattccttgggctgttgtcggtgtgaataaggcaaagacatcaatgaataagcataaa aatagccaagatgttcattggagtgatagattggattattatcaaagacaaacaagacgaggcgaaactcatggtgtccctgttgg acctgcaacgtcaagtattgtatgtgagataatattaagttccatagataatattcttgagaataaaggattcttattcagacgtt acattgatgattatacatgttattgtaaaactcatgatgaagcgaaagagtttctccatgttttaggtactgaactttctaagtta aagttatctctaaatttgcataaaactaaaattaccagtcttcccagtacattgaatgatgattgggtgtcgttgcttagtattaa ctctccatccaggagagtattcaggaataatgactcggatatattatctgcatctgaggttataagctttttggattatgcggtac aacttcatctgacgaatgggggcggtagtatattaaagtatgctatatctttaattattaataaagtagatgaggcgtcagcaaga gagatgtacgactacgttttaaatctgagttggcactatcctatattaattccatatttagatgtattgcatccaaagattaacat taatgatgaggtcaggttaaaacttaatgaggttttgaattcctgcatagataataagttttctgatggcatggcttgggtgttgt attattgcttaaaatattccattgatattgacagttgtctcattagtaagatttttgaaaacggtgattgcctaagtatttgtatt ttggataaaactggaagatatgataaggaaatagaagaattttctaaaaatataatttcattggattatttgtatgaggttgataa atattggatattgttttatcagcgattctattcagggaaaggatataatccttacaatgatgattgttgtttcgatataatgaaaa catatggagttaattttatgcctgatgatggttatcaaacgaaagctgaacactattgtaatatagtaaatagtccatttcttgag aatgatgaacaagtaataagttttaacgattattgttcataatttataattagcctccg (SEQ ID NO: 22) 26 pLG028 cctgtcaaaaaatccccgtaaatcccgctatttttaacgaaataagccatgcatccataaggtgcatggttttgcatgcgttttcc cgttcctgtactcccgaccagcgtcagtcccggcgcgacctgaggtcacctttgcacctgcattaaaagcggccccttaagcgggc aggcgtggcggggagagcattgcgcgccaaagcgtattgatatactgccagcattttttgatactcacacccatctacaggagtag gtcactaccgatgtagagcttttccggattcagataaaaccacttagcatcggagcaaagtaactcaataccgaacaataaatatg agcccttcgtgaaaccgggtaaggtcaaactcataaaccaacaaaaggggaaaagtgggatatgtgaggcgtgtatgatttttatt tattgggcttcgttaaaaatggtgatttaatagccctttaaatttatcactttttaactaactccgagggtttatggttatttttg atgaaaaacggcatttgtatgaagccttactgaggcacaattatttccctaaccaaaaaggttcaataagtgaaatacctccgtgc ttttcttccagaacattcacaccggaaatagcagagctaatttcatctgatacatcagggcgcaggagtctacaaggttatgattg cgtggaatattacgccaccagatataataacttcccaagaacgctgtcaatcatccatccaaaagcgtactcaaagctagccaagc atatacatgataactgggaggaaatacggtttataaaagaaaatgaaaacagcatgatcaaaccagacatgcatgctgacggtcgc atcataatcatgaattatgaggacgcagaaactaaaaccataagagagctaaatgatggttttggacggcgatttaaagttaacgc agatatatcaggctgctttacaaatatctactcacactctatcccgtgggcagttataggggttaataatgcaaaaatagccttaa atactaaagtaaaaaaccaggataaacattggagcgacaaacttgactactttcagcgtcaagctaaaagaaatgaaacacatggt gttcctattggtcctgcaacctcaagcattgtttgtgagattattttaagtgctgtggataagcgtcttagggatgatggattttta tttagacgttatatagatgattacacatgctattgcaaaacacacgatgatgctaaggagtttttacatttactcggtatggagttg tctaagtataagttatcactgaacttacataaaactaaaataactaatctcccaggaactttgaatgataactgggtttctttgct taatgtaaattcaccaacaaaaaaacgttttacagatcaggatttaaacaagctaagttcttctgaagtaattaatttcctagatt acgctgtacaattgaacactcaggttggtggtggaagcatactaaaatatgctatttccttggttataaataatttagatgagtat acaatcactcaggtgtatgactaccttctaaacttatcatggcattatccaatgctcatcccatatctaggcgtacttatcgaaca tgtctatttagatgatggtgatgaatataaaaataaattcaatgaaattttgagtatgtgtgcagagaataaatgttctgacggca tggcctggactctttatttttgcatcaagaataacattgatattgatgatgatgttatagaaaagattatatgtttcggcgactgc ttgagcttatgcttgctagatagctcagatatatatgaagaaaaaattaataattttgttagcgatatcatcaaactagattatga atatgacattgacagatattggctccttttttatcagcggttctttaaagataaagccccaagcccttataatgacaaatgctttg atattatgaaaggttatggcgttgactttatgccagatgaaaattacaaaactaaagctgagtcatattgtcatgtcgtcaataac ccatttctagaagacggagatgagattgtaagctttaatgattatatggcgatagcgtagcttttaggcctcatt (SEQ ID NO: 23) 27 pLG029 gcgttgaatggtataactatggcacggttaccgcatgttttgagctgtaatcgaagttatgaaaattgctatataaagcggtcgct gttgtggagatacgattgcgggaagtgatggaaagagctataaaaagtacagaggatagtttaatgagggtattatgaaccgtcag ccgtttacttcagcagcacttaaacgaaacttaagtgaaagtgagaaggcttattattttaaaaaaaataatgttgctgagttaga atcattaattagtgatgccgttttaattgctaatgagaattttcgctctggtgtgagtgtaaagaaactaaatattaagggacgct gcgtttacactgcttcatgtttgaaggaaaaaataatacttagacattgcaatgcaaatttaaaatgccttgaatcgcttcgtccc aaacaacgaaatacaataattagtgagcttaaaatttatttggaagaaggtactccattcaaaatatatcgtttggatataaagtc tttctttgaatcaattgatttaccgcagctttttcagctcttacataacgaaacacgactgtctagacatacaaaaaatttgctag aatggtatcttaaatcgtgtgaaaggcttcactcttcgaaaggattacctagagggttagaaattagtcctatgttatcagaattg tacttggcacaatttgataatagtattcataggcatccagaagtattttattattcaagatttgtagatgatatggtaatcgtttc aagtggttgtgaatgtgaagcgtcctttatggaatttatacaagatgtattaccaaagggattggcwaaataaaaataaattaaaa atatctccatgcataccaaagagaagtaagggtttaaataaacaggataaattgcttcatgaatttgactttctagggtactcgtt ttctataatagacacacctttgagcaaagatggtgagattaatagctgttacagaaaggttgttgttaatttatctaaatctcgcc tgaagaaaattaaaacaagaatagctaggtctttctactcttatcatattaatggtgattttaaactattgctagacaggatttct tttttgactagtaacagggatttaaatcgcaaaataaaatcgttaagttctttagaaaaaagcaagataagtacaggtatttatta cagtaatgcgaagttagatgttgactccatatccctaaaaaaattagatgactttttgctatattgtgtgcaatctaatactgggc gtttgaatagtgttgcaaaaaaaccttttaatttgaagcaaaaaaaagaactgctaagaaatagttttagaaaaggctttgtggat agagtatatagaaagtataactttaagcgctatactgagattacaaaaatatggttataaagaaaaacattaaacttgataagaaa gattatctcagggctttactatgtgatacactgcccggtgattgtccaattattttttcaaatgatggcttatatataaacttaac agaatatgatagagtttgtaatgatttgttacattttactccggtttcttctttcttaaaaaaaatagttaaccctaatttagact cttctattagtgtcgcagatcgccaccgagaaaagaagaaacaaagctccccatttggctattgtatagtaaaagatgcctttagc caaagacatctttctttaattcacccaagatctcaaattaattattcggaattttataaaacatactcatccgttatcacattaaa tactttaaaaagtaatttttctattcgctacccacgtaaggtcgctaactctttctttttatatgaaaataatgctttggaaaaat ataaaggggaagatatcgaaacaacaaaggatgagttaatgaggaaatattcatcctcttattttagttatggcggtttcaacagg atatataaactatttcaaagtaagatgtttattgagcttgagaaaagattctcggtgatgtggatgttagatgtatcacattgttt tgatagcatatatacgcattcggtttcttgggcattaaaaaataaatcatatatcaaaaaacatgttaaacacagcaatcaatttg gacaagaattagatacactgatgcaacgtagcaataataatgaaacaaatggaatacctattggttcagagtttagcagggttttt gcagaattaatatttcagcgaattgattgcaatattgagtcatgccttcttagtgaacatggatgggttaataataaagattatgt tatattgagatatgtagatgattttattgttttttgtaatggtgagtcaagtgccgaagttattacaaaaataattaatgtgaagt taaatgaatataatctacaattaaatgtaaacaagcttaagaagtattctaggccattttgcactagcaagacaagtttgattgtc aaagttaatgaattaattcgcaatttagaaattaaactgtatgaaaaacgtgatagtggctttactttaaataaaataagaagtaa gcatgatttaaagatatatgtaattaatcatgtcaagtctatatgcattgaaaatcaagtgtcttattctgatgtttcatcatata taatatcatctctttccaaaagattaatatcaataattgatatattacgagttcaagaaaatgaagatgatgtagatgtaaaaaaa aggattaaggacttaattttcacaataaccgatattatgttgttctttttcagtgttaacccaactgtttcatcatcttataaatt atcaaagacaatggttgttgttaataactatttgaatgaaatatctagtgactatagtagtatttttatgactacgttagtgaatg ctgcggaaaacattaattttggtgagaatgataatgggctgtttattgatgatttcatttcaattgaaaaggttaatttaatcttg gctgctactttttttggagataattatcttataagtgacagtttttttcatggagttatacataaaaagaaattggactactttac tataatctcactgctattctattttagaaacagaagatcattccgaaaattgaagtgtataatagagggtgaaataaaggaaatat taagttctaatatggatttgctgcaatcatcggaaaaggcacatttatttttggatgtcatgtcatgtccatttgtctcaatagag acaaggcgttttttatatagaaaatatctcaagagctatgagccaaagctgaacagaagtcatctggagattgagaatgatttgca atctctgcttcaaacatattggtttgtcaagtgggatgagttagatattgtgaaaatgattgagaaaaaagaattgaaagaaagct attaatttgataaatatgagtcgtggtcagtttcaaaatacttacgtcatcgtcgtcggtgtattttatatcgattatgaagacga tttcgctggaactgaaatcggcttgaatgcttaaacttaagctaaaaaaacagtttgagaccaaagcctaaattattaggctttgg attttcaggttcagttgagagtaattgctgtctg (SEQ ID NO: 24) 28 pLG030 cttgagtttgcgtaagataatttcgtgaaaattaaagcaattaatataaaaaatgtaattactagtgtgtacagatatgaaaaatg atagttataaaaccatatgaaaattgaagaaagagttcaatttttgccttgtcagtaacaaataggtagcttattgaaaaaagata aaaaattaacaaaaaatcaataaattcatatagaataaaaatattaaagaaatgaaataagtgtttgcttcatcagttttagggat acattaaagtggttgataaagaaaaatattatactggattaataaaagatataaaaatagtagcttatgcaagattcaataaaata cgtcgtttaaagagaaataattttttaggattgttatctatttcggtagtttctatcttagttattatattatcaattgtagaaaa aatttataatataaaaacaatgagtttaattccattgtttgaaccaaatatagaaatatggttcttttgtatacttgcttcaataa ttattctttgtatatctattgcactctctactatgaagattgatattgaaatagaaaggttaaataaaagtgcagttgaacttaat gaagtaaggcggaaaattgaatttaatattgagaatagtaattatcaaaatagtacattgtttgataaatatcttgaaataataaa gtcagacttaataaatcatgatgaggttgattataaaataaataagtatttagtcagtaaagttggtagtaagtttgcttattatc gaatgtattttattgatcagaattttacatcaatattttatctttttataacatttttaagcttttcttcaattatttcaattatt ttgcaggtaatgttgaagtgataagacaagattttagtgtaaattccctgttgagaatcacaactaaaaatgaaattgttaaattt aacttgggtcgtaataaggaagagtatgctattgcattatctcaagtttctaattatctattagagggcaatgaaataatagataa tttaagctgtagaatagaaagaaataaagttatatttagtactaattcaattaatactttttatgctttaaaaaaaatttctaaag atttaagccgattgtataaaattgagcctcctaatagagatgatatttctgaacaaatttatagaatttttgaacactctacaagc tatagtattgtaaggttagacattaaaagtttttatgaaaatattcaatataatgaggtaattaaaaagctggatagagataaaat actagttgcaaaatctattaaaattcttaaggatttatataactttattgataatggtttaccacgaggtttatctataagtccta ttttgtcagaaatatttatgaaagaagtcgatcaacaaattagaaatatagatcatgtatactattatgctagatatgttgatgac ataatagtaatttcaacagataagagtgattctatatatgaaaaaacaattaaagttttagagaaatatgatttaaatgttaatag taagagatatataaaaaatattcctgctgtgaacaataatgaaatctcaactttatataagtttgattacttaggatataagtata ttatagatacaatttcatataaaaataaacgaatagttaaagcggaactgtcagatgataaaaaaagaaaaattaaaactagaata atacatagtcttttagatagagtttataatacaacgcattatgatcgggaggagttgttaattaagcgattaaaagtgttatcctc taactactcaataacatataatgaattgtcaaaaactaatttaaaagctggtatgttttatagtcataggttagtaaataattatg gtatttttagtgaatttaataaatttttatctaaagctatctactgtcaacaaaacaatttctttggtaaagctatgtcgcagatt cctagtaaagaaaaagaaaatattattaaaagtatttgttttgttagtggatttaaagataaaaactttattgagttagagagggt tgaaatggaacgagtaaaaaagtgttggaaaaataaacgatataagaagctttgaggtaaaaatgaaaagtaagatttatttagat aaaaaggatttttatagagtattgttaactgatgtattaccctatgaagtaccttttattttaagtaatgaaggtttttatagaaa cttaaaaagcaactcatttcattcagttactaaaaaaatattagaattaactttatttacttcacaagtaaacactaatcctttta attttaaaatctctaaagatgatagtaattttaggaagttatatttagttcacccaagttcacaaataaaaatatcaaatttatat aaaaattattatcaattaattacgcatttgtgtagtagaagttctttttcacttagatatccaacttatgttgcaaaagcttttta tagtatagaaagagatagatctaattccgaaaattataaagatgaagatattgaattactgtcacaaaaaagccctaaatatgcaa gtacttattttgtatataaagatatcagttttttatataaattctatgattcttatagatttcaccgtattgaaaaaaagtttaat aaactattaaagtttgatattgctaaatgttttgactcaatatcaacatttcaattacctagatcagttaataaaaattgtagctt tgaaagtcatacagatatacatagttttgaacatttattttcttcaattatgaaaggtgcttatcatggtaatacacatggtattg taataggaccagagttttctagaattttcgctgaaattttattgcaatctatagatgtagcaataaaaaataagttaagaaatgaa atgggaattaaggagggtgttgattatgttataaaaagatatgtagatgattattttttattttataataatgagcaaacttcaaa tttaatttttgaatgtattgttgaagaactttctaagtatagactattttgcaatgaatcaaaaagtattaggactactattcctt ttattacaggtattactattgctaaacatgaaataaggaagagattagaaactttttttgaattatttgagtcaataaataataaa gatgattatattgggctaaaattaaatcattattataaaatatcaaatcaattaattagtgatattaagtgtattgtttttaataa taatgtaagttattcaagtatttctggttatttttttactttaatgaaaaatcatgttttgcatataaaaaatagtttttcttttg aggataaatctaaagttgaaaatttaagtaagttatttcttattattcttgatgtttcgttttttgtttactgtatgaattttaaa gttagaagcacatatttaatttctcaaattatagttttgattagtactattgctgaatcatttgatttaaatttgatagatttaat taataaaaaaatatatgatgaggtggatttggttttaaagataaagtcaaattcaaacttattgaataatattgaaattttaaatc tattaattgctgttagagatattgatcttaattatcagatcttagtagatgatcttatgttattgttttcttcagaaaggattaat aagtataattatttctctttaatgacttttttattttatgttcaaaggaaaaaacagtatcagcctatcagagatagaatttatgc aataataattcaaaaatttaatcagaataatctaaatgtctcaaatgattctgagttaattcacattttttttgactcacttagct gtccttatttaactaaaaatcaaaaaattaatataactaactctgcattaaattctattattaaattaaatgataatgaaattgat gtttttgtagaagaaatgagcaaaactaattggtttattgactggaacttgcaaacaaaagatgcaattcagcgtttgctgatgaa aaaagaattgaaatcaccctatgaaaattgagataattaagctagaaactagatatacctccgacatttgttggttgattttacac actatataactcctagtttctataaaaggatgtttctaacatccttttattttttttgagatttaatttttcttttagtgacaact aagttttactataactaatagc (SEQ ID NO: 25) 29 pLG031 actgctcgacaaaacgaaccgttcattcgcgaggatggtggcagtgaatgaggtggtcagttttatcagcgcttcaaggtagcttt ataggatggattgtagcgaagtgcccaacaaattgattgaagctaagggcattgagcattgcatgcatcatgctcagactgacaaa aaatcaaaataaatggattgatacggacatgacagacagcgtacagactgaaactaccgagggaaaaatcatcatcaacttgtttg ctcccaatcttcccggaagtaccaaagaagatgatctcattcagaaatctctgcgtgaccagttggttgagagtatccgaaactcg attgcttatcctgacaccgataagtttgctgggctaacacggtttattgatgagtccggccgtaatgtattttttgtggatggtac tcgcggtgcgggtaaaactacttttatcaatagcgtggtcaaatctctgaacagtgatcaagatgatgtcaaagtcaacatcaagt gtttgccgaccatcgaccccaccaagttgccgcgtcatgagccaattttggtcactgtgactgcccgtctgaataaaatggtgtcc gacaaattaaaaggatactgggcgtcgaatgactatagaaaacaaaaagaacaatggcagaatcatcttgcacaacttcagcgtgg tttacatctgctgacagacaaggaatataagccggaatatttcagtgacgctttgaaactggatgcccagcttgattactccattg gtggtcaggatttgtcagaaatctttgaggagctggttaaacgcgcgtgtgaaattctcgactgcaaagccattttgattactttt gatgatattgatactcagtttgacgcgggttgggatgtacttgaatctattcgtaaattctttaacagccggaaattggtggtggt agcgacaggtgacttgcgtctatattcccaattgattcgcggtaaacaatacgaaaattacagcaaaactttgctcgaacaggaaa aagagagcgtccgcttagcagagcgaggctatatggttgaacaccttgaacagcaatatttattaaaactttttccggtacaaaaa cgtattcaattgaaaacaatgttgcaattggtcggcgaaaagggaaaagccggtaaagaggagatcaaggttaaaaccgagccagg catgcaggatattgacgccatagatgttcggcaagcaattggcgatgctgttagggaaggccttaatttgagagagggatcagatg ctgacatgtatgtaaatgaactgctgaagcagccagtgcggttgttgatgcaggtgcttcaggatttctatacaaaaaaatatcat gccacatcggtaaagcttgatggtaaacaaagcagaaatgaaaggcctaatgagttatcagttccgaatttacttagaaatgcctt atatggctcgatgctaagcagcatttatcgtgcagggttaaattatgaacagcatcgatttggtatggattcgctctgtaaggaca tttttacctatgtaaagcaggatcgtgattttaacactgggttttatttacggcctcagtcagaaagcgaagcattaagaaattgc tctatttacttagcgtctcaggtgagtgaaaactgtcagggcagtctgtcaaagttcctacagatgcttttggttggttgtggctc tgtcagcatattcaaccaatttgtgaccgagttagcacgagctgaaaatgatagagaaaaattcgaacagcttattagtgagtatg tagcttatatgtctgttggcagaattgaaagtgcctcacattgggctaatcgatgttgtgcggtggttgcaaacagccctaatgat gagaaaattggtgtttttcttggcatggtgcaattaaatcgtaaatcacgacaacacatgcctgggggttacaaaaaatttaacat tgatactgagaatggcctagcaaaagccgcaatggcgtcttccttgagtacggtagcttcaaataatcttatggatttctgtagtg tttttaatctgattggtgctattgcagatatctcagcatgccgttgtgaaaggtcagccattactaatgcttttaataaagttata gctcagacaacatgtattgttcccccatggagcgaggctgctgttcgtgcagaaatgaaaggctcaagtaaaagtgcagataacga tgctgctgttttggatgtagaccttgatcccaaggatgatggcgtgattgatgaaagtcagcaggatgacgcaacggaattttctg atgccattactaaagttgagcaatggcttaaaaacgtaaacgaaatcgagattggaattcgtccgtcggcacttttgattggtaaa gtatggagtcggttctatttcaaccttaataatgtagctgatcaacataaaaccagactctatagaaatgcagagcatggacgaat ggctagtcaatcaaatgccgcgaaaattatgcgttttaatgttttagcatttcttcatgcggtattggttgaagagagtttatatc attcggttagtgatagggaatatatcggtgaggggttaagactaaatccagttacttcagttgatgagtttgagaaaaagataaaa ataattggtgagaaattaaaagcggataataaaacatggaaaaatacccatccattgtttttcttattaattagctgtccaattct acatccgttcatttttcctgttggtgggattaattgttcagtcaaagcactgaacaaagaaacaagtttcaataagctgattgatg aaattgttggcgataaattactttctgatgaagaatgggactatctgactaaaaataatgatcaaaaaacaaacactagacaacaa atttttcaaaatactataacatcgctgaattcctccacaatcgtcggagcatcatacgataaggatacaccagccaggaaaaccaa gtcacctttattaggtgatagcgaagaaaaatgataatggccttcgtataaggattgggtatggaaaggtttcttcttaactcaac agttctgttatataggctaagcacagtctctttggatgaggtatcacttgatgagagagtggagtcatctgtattccttgctcaat acgaacaggctcgtagtttacctgatcatgtagctaaatctgcttggtcatatttagtgcaacaaatcaaacagcggaatatgaaa ctcggcccagtagcaatcttacgcctgatagctgaaaagtttattaaaaacgagaaaggtggccccaaaatcgatctacctatgtt ctcggaatggcaaacgctgatgagtcgagtatcgtgtctaccaattatagcgtgtcatcaggtatttaatccagggccagccagtc aggaatatagttttcgctggcctttatacccatatcacccgacggttgaagactacattacccgtgaatgcttacatgaaactcac caacacctaaatggcagtaccagtgcagaagagtgttggctggatgcactcaaacacccagaagcatgcctcagagattttgagaa gggctgggcatctcaagagatgaaacaactctgcgcccagattgatccatctctgacacctagaatcttcaaggatcgtttgcaaa tcgcctgtaatattcgcgaaattctttgtcgggttgctcagggcgtggaattgccagagtggatagcatcaatgcaaaatccgcag caactggcgaatagcacaattctgcataatggccgggagtatgggtttgcgacagtttggccaattgacgacaaatacagtcagga gtctgagttttgctggctaaccggattgttggaaaaatggcggtttaatgcgccagaagggttagaacgattgctttggatttacc tgctgattcaaaatcagtacttgaccttactggttcagcgagacgattttttcggatttgaacagttccagaattacaccatgacg gagttgagggaggaaacagagaaatcttatttgtctcgttttaaacatgctcatggtgcaggagtgtattctcaggtgcgttatct ggaaggacgttttgctccgaagagcgaccccaacaaaatgcaaaagctgctcttcagtgtgttaagaggatattgggaatatctga gtgctcatatgtccatggaatgggtgcatgaaaagcctctgactatatcgcaagtgctcgataacctcgaactggttgaacctcat ggcaagtgtgtagagctggcgctagtgccgcactttatcaaaagaaagcccaaaaatggtgaggcctatcctcacgcattactatt caaagacctgaaaaatcaggcagctattctgatggacatgctgaagtctgaaccgcgtctgacaggctggattcgaggagtagatg ccgcagctaatgagatgcacgcaccacctgagttattttgccccttgttccgggtactagccaaatcaggtattgctcattttacc tatcatgttggcgaggactttccgcatctgatcagtggtattcgctccattgatgatgccttgagatttttaccattgcgtaatgg cgatcgtcttggtcactgcacggcgattggtattacacctagcatctggaaacgctctttgccattgtccttatccatgaccaaag agacgagattgctcgatttggtgtttatctggcgggaacttcgaagtcatccggaactgctgcgUacgctagtgatgcagcgattg aagctgttcgcttggctcataaagtgttttcgctggaagaggaagtctcgattaccacccttgatcaggtatttgaaatgcggggg ctgttggccgaatcggaaggcctactgagtgagctaaatgaaccattaaaacccaaatccctctggttggaagagtatgagcgcgc cagagagttggttaaaacaacgggtatgaaaaggccgttgaagttgtataagcaatggctaacatctgacaatgtgcgaaagcagc gtgctgaatatgttgaagttgccctagaatatttgccggatgaagcagttgttgcattacaacaagctgtaatggcaaaaatggca gaccgaaacattgcgatagaatgcccaccgaccagcaatacacgtatcagtcagtaccgaaacgtcagcgagcatcatatctttcg ctggatgggcttgccgggtgaggcgattgaaggtgatgttcctatgtctatttgccttggctctgatgatccggggatcttcgctg cggacttgaaatccgagttctatcatctgttcgttgtgttaacccgaaagttcggtttgtcgccagcagatgctttgagaaaggta gctgaggtgaacgagaatgggcgcatttatcgctttcatgatgtcagctagcctgtatacattgaggattctgtaattgttcaaga ccagcagtgctcattgctaactatctat (SEQ ID NO: 26) 30 pLG032 gaggatttatgcacaaaatcctgatgcgaaatgttttcaaaaattgtcaggttaacgttcctgcagatctttgcgttacatgtcat ttctggatcctttcccgacaggttaggttgtgattgatatgatgcccatctctcattttagtgatcgttatccctttataaacagg agtttatatgttatctatatgcaatagacttaaatcgatatacgtgcgcagcttacgattcacctctctacttactatttaaggaa aagagtgaggggagaattgattttcattaagatattatgagagaattatgactagtgaaatagtgttaaatcttgatttcccagaa tataaggatgatttttgtactgatagcattgatgagcaagataatgagttgtggcagcaacaggccaataaaaagctactttcgtt tctcgaggtgatgggggaggaagcaagacgatataaagaaaataattcccgtagtacgcatccacattataagacattgagtagtt atcaccatgcaatctttatcagtggcgcgcggggggcggggaaaactgttttcatgagaaatgccagatttagctggcaaaaacat tataataaagatctaaaacgccctaagctatattttattgatgtgattgacccgacgctattgaatattgatgaccgtttttctga agtcattatcgcttcaatatatgctacggtagaaaagcggatgaagcaacctgatattgcgcagaatatcaaagataattttatta attcgcttaagacgttgtccggtgcattaggtaaatcaaaagattatgatgaatataggggcattgatcgtattcaaaaatatcgt tctggaatccaccttgaaaaatatttccatcagttcttgatttcaagcgttgagttactggattgcgatgcgctggttttgccgat tgatgatgttgatatgaaaatagataacgcttttggtgttctggacgatattcgctgcctgttgtcatgtccattagttctaccat tagttagtggggataatgatctttatcggttcattgccaaaagtaaatttgaggaattattaaatcgtaaagcaaactctaattat gctaaagaaggcagcgagatagcagaaagattatcagaagcatatattactaaagtattccccagccatgtgaagatacccctcca accgatagatgagttgttgccatatctttatatacattctaatgaagatgaaaataaacaacatacaagctattctgaatttatca aacttgtacaacaaaaattctactttctttgtaatgggcaagaacgaagcacaaattggccgcagccgagaagcgcacgtgaagtt acgcaactaatccgttctttacctccgtctactcttagtaaggaagatgattcgggaactgatttatggcaacgcttcgctgtctg ggcggaagaacgtcgcgatggattagcattaaccaatgttgaatcttatctgtttattaagaatgcgaaagcagtagaagatttaa atctgtcaaatcttattgcttttaatcctttactgcaaaaaggaaaatatccctgggcagaaaaggatttttataaacagcagtcc caacgtcggaaagagctcaatgcccccgaaacaaattcaggtatccttaataccgtattttccgaacaaaggaaagattttatttt aagaagtatgcctgcgctggaactcattatggagcctatgtatgtcactaagacggtagcagaaaaaaatgataattctgcgctta tagcgatctatacccattctgattattacagccagcagcagaacagacgatgtcatatattttttggcagagcttttgaaataatg ttctggtcagtattagcgaaaactgaaaatcttccacaagaattttatgaaaaagataagtttaaatctttatttggtaatatttt caaaaaagtaccattctactcaatattttcaatgaaccctacaaaggttgttgatgaagaaaatgacgatggcagtgaacctgatt tttcgcaaaaactggacgatagcattaatgaactggtggaagatatatatatctgggcaaccagtaataaattgcgagccttcaaa aataaaaatttaatacccttaatgacgtgcgtttttaataaggtattttcacagatcaatgtactgagaaaaaacgtgcaggacag agttaaatttagagatgaacatttgtcagatctggctaagcgatttgagtatatgtttattaatgctatctttactttcatcagag aaggggtagttgtcaataccaatgtggcaacaggcgcagctcctgccagagtacgtaatttatcagagtttaataggtatgataaa acattatccaggaatatgtccgggattttatccgtgaaagaggataatggcttaacgatagtcaaagagagtgagggcgatatcgc agatctgttatttgaaatttggcatagcccattatttaaattaacaaccaggacatgttacccaataggtaaaataaattcgcaaa atacggcccaggaaaatttatcatcagattttaattcattttttgaaaatggtatcaacttcgaattgataaaacaatattattgg caaacttcaaatcatgataatatcaggacagcagacgttagggaatgggcaacttcacgtcttaatgaagcaatcatccttttttc atggatgaaagaaagcaagtctattaaagcgaaaattgacggacagagctacgagggtcggctctttcgcgggcttcagcaggcgc tggaaggttatgaggaggtctgagtatgtttaatcaggatccttattggctcattcctaccctttgtctggcatcagaccgaattt tttatgcacaattgcgagaccacttaggccagaaaagtagcggtgaacgcaaaaaagaaaaaaatggatatatactggtacaggcg gcacaagactatcaattctattttggcggccgtattcggaaagaggatgtgcaaaataatgccttaatgtggcagatagaaactgg taatgaaaattgcttatcgatgcttgatagtttgtcagcatatttcctcacatggcgcggcaattgttttgaggtcaggcgtgagc gacttgaaccctggctgatgatctgttccgtgatagatcccgcatggattattgcctatgcataccaacaattgattaaacaaaat gttgtatgtgatagtgagcttatttctttgctgacagaacatcaatgtccatttgcctttccaaaaggcagaggggacatttcctt tgctgataatcatgtccatcttaatggtcatggttatagttcaatttcaatgctgaactttatagatggaaattataaggttaaaa aagggataaaatggccctatcggcaggaatacaccctctttgaaagtggtcttctggataaaaatgatcttccccgctggctgtcc gcttatagctcttgcttacttaaaaatgtatataattcatttcaacaaggaaaaagatccgaggtagatttcacatgtctgaagga tgcggtcgaaacggtgcttgcggatgaggataaatattattttttagaggtagcttcgctatatgatgttgtcaccttgcagcaaa gagtgctttatgaagccgcccagcagaaatatcactcacatcaacgttggttactgtatacttgcggaataatgttaggtacagaa tctgaagattatgcgaatgcgctggctaacctgatccgaatcagcaatattctaagaaactatatggttgtatctgcggttggatt gggacaatttattgattttttcggcttcaactatcgtcgaataacaaagccagctgatacaaacaaccgagttcattatgattctt ctgctggtatttccagagaatatcgtgtctctcctgattttgtactgggtagcggcgtaatgcctgatatatatgccaggcaactt ttcgatttttattgtacccaagcacgcaagggcgtacccgaacaaggacatattgttgttcattttacacgttcctttcctgacaa aaaatcaacatatgataaattgctaaccgagtgtcgcgaacggttacgttctcagtgtgattattttggccgttttttaacatcgc ttactttgcagtcgatagaatataaaaatttatctactgatgaagatcgaagcatagacattagaaaattagttcgtggctatgat gttgctggaaatgaaaacgagctacaaatagaggtatttgccccggttctccgggtactgcgtgctgctaaatttaaaggggaggg ggtgaactttaaaaggctacagcgcccttttattactgtacatgctggtgaggattattgtcatatactcagtggccttcgggcta tggatgaagccgttgaattttgtatgttaggagaaggcgatcgtatagggcatggattagctctgggagtagatataaaactatgg gcgaatcgccaaaagcgagcatacctgacggttggacaacatcttgataatttggtttgggcatatcatcaggcagtattactttc tcaacatattgtcgagcatataccagtaatgcatgaattaagggataagatccattattggtctcatcaattatatagtgaaactt atacgccagatttactctttaaagcatggctgctccgccgtaactggccggattataagtcaatcatatctgatccagcaaatatc aatgaatgggtgcctgaccaacatattttagtcagtacagatgagactacagctaaggccagaaaaatttgggaacgttatttaaa tagcggtctggcagaaaatgatgtttttaacagaataatttcagtaaattgtgcgcccgatacagcgcaaaatttttcaatgacct ttaatgaaaatgaagatattttatccaaaggggaattattattgtatgaagctatccaggatttcttaatcgaaaaatatagtagg ttgggtttagtcatagaagcttgtccaacctcaaatatttatattggcagactggagaaatatcatgagcacccattattccgttg gaatcctcctgactcccaatggattaaacctggtgggaaatttaatcgctttggattgcgcacaggacctttatctgtctgtataa atacagatgacagtgcattgatgccaaccacaattgaaaacgaacatcgcttaatgagagactgcgccatacatttttatggtatt ggaacatggatggcggatttatggataaactcaatacgcataaaaggtattgaaatattcaaaggtaatcatttaagtcaggattt agataatttaatctaaatgtaaacaagaaatccacgcaaatgcgtggattttaagtcaacttattattctctgaaacggtttaacc gttcggaacaacagattaaatc (SEQ ID NO: 27) 31 pLG033 tgtggttagttatcacagcactaacctattttcgagctttttgattgaccaataccatttcttttaattatgaataatgatgcgtc aaccgatggcgaacgggccaaatccactcttctacaactgcccattgtcacggtgtggaataattaaaaattttagatttttgaga ttattctcattaccatcttgattttatttggttttgcatcaaaattcatagttcacaagcttttctcactccaaaaacaactgtaa agggattattgtgaacacgatatacataccattagacagcggagagtctgcggttcttaaggatccagataccttacttccccgaa atatttacgaacagcttactcgatttattgaaaaggctgttaatgaagtaccgaagcctcacgaagcgcttaatgaaacccgtagc cataaggctatatcgattgacggcgcaagggggacaggaaaaacgtcggtgctagtgaatttgaacgactatctgcagagtaatgc tcagcaactggcggggaaaattcatatccttgatcctatcgatccgactctacttgaagatggtgagtcgctgttcttgcatatta ttgttgctgccgtgcttcatgataaagagatcaaaactgcccaaagcagagacctcgataagtccagagtgtttacccagaagctt gagaacttggcacacggactggagtccgttgatttgcaacagaatcaacgtggaatggataaaattcgctccttatatggcagcaa gcatctggcaaattgcgttgaagagtttttaaaatctgcgttggagttgatcggaaagaaattattgatactaccgattgatgatg tggacacttcactaaaccgggcatttgaaaatctggaaatattgcgtcgttatcttacctctccgtatgttttgccggtagtgagc ggcgatcgccgtttatatgatgaggtctgctggcgagattttcatggaaggttgaataaggattcagcatataatcgcaagaacac atatgatattgctagagatttggcaattgagtatcagcgtaaaattctgccgctaccgcgcagactgagtatgcccgatgtaagtg attactggcagcaagatggtatcgaagttacgctagataaaaatggcattcctctgcgtaattttatggcatggttgaaaatattt attactggccccgtgaatggccttgagggtagtgatttacctctaccgataccttcaatacgtgctttaacccagttcatcaacca ttgcagggatttaattcgtgagcttcctgaaccattcagaaagaaagtcagtacgctggccttacgtcgtatgtggcaaatgcctg atgttcctcttgatgttcttgaaagttttgctgaaaaacatcgggaattgagtaaagaagctaagcgtgaatatggggaggcttac aagctattttatgatggactaaagaattttactgcttgggatagtaaggcttatctagaagatgataaacaatctgcatggctcga taggttgtgtgagtattttcgttttgaacctaaggctggggctgtgtttttaacgcttcaggcaaaacagttctgggtctcatggg cgcagggtgacaatcgtaatcaatcgattcttgcgactccgctttttcaacccttattgcataattttcgtgaatacgatgtcttt gaaaggtatgatgatctttctgattgggaatctcagttaagaacaaggttaccggagagttggttgactgccattaaagggcaaaa aacgcttttaccctatcctgtagcagaagcgggaattaataccagtttaaagtggaggtattgggaagaattagagaactatgggt ttgatcctgctttggaaagcaaggcaaatttccttttgtccacgttgatgcagaggaatttttatacaaactctaaacagtcagtc gtgataaatattggtagagtttttgaaataattattgctagtcttgtttcggatttagagttggccgacttgcagagaattagaca acgttctccattttactctgctagcgcgcttgcacctaccaaaacgttagatttggaagaggattttacgaaaaagaatacaagat ttatgaataacagaagtgaaactgacagagacatttctgatgatattcttgttgatgtgccggataaaaatgaggacgcatggaaa aaaatttgtgatgaaataaaccattggagaaagacacacaatgtggctagtacaaacttatcaccttggctggtttataaggtctt taataaaacatatagtcaggttgctaataatgtgtttgttcccagtggaatgcaaaatgttgatgcggctctaaatgtttttggta gggttttttatgcagtttggtcagcatttggtagttttgaaaaaggcgaattgttcggactatccgatgtggttgctacaactaat attatttcggcaaaaaatttttataatcatgataacttccgagtgaatgttggaccgtttacgcctgagcaaaaccaaaattctga cagcgatcgtgaggcatatcagcatcgcaaaatgtatggtgaaaaaaccagagcggtaagttatgtattagcaactcatccgctga aaaaatggatcgacgaggtattacgcactgagtttaaacaaaaacagaatgctcagattcagaccgagagaaaaatgccgattcag gctgagaaaattatagatatcagcccggcaagagagtttatcacaagaaaactttcattaaattcacactcccggttggttaaaac acgtataataaaacagcttaagatgttatatccaaactacgataaggctaaggacttcattgatgaagttacaaaccacttccctc agaatgatcccgcaattaatacgcttcagaaagcatttgcagaactttaccccgatggtgacaaataatgttaactcggtctctaa gtgaacatgctgcagggtgttttttcactgatgagcgtctgtcacaacgctttctagatatccttttatcgccacccaaggatttt gaaacgtggtcatcattgcaggaggaatctttcaagctgctcgttaagagcatcgatagccgatatccacgcacttaccggttaac cgacgtacgccagcttgtggggaacatatgtgacaacgggttactgacgagtccgacactaccttggctcgatgtcattgcggatc agttactgttgcggaatggcgacttactctattaccgcgaaaataaggttcaagactacgtgcgaatagctgcggaactcgaccct gcccttctagtgggatggcgtcttggcgactggcttttgcaaagcccaccgccgcgattgacggacataacccgtgtggtgatggc gcagaatccgttttttgctccacctgctaatgcaggtaaaccttttgccgaggggcacgtacatctcgggggagtgacggctggag atactattttggatggctatctttttgaagagattgaactacccaaaagcaaagatatgttgttgtgggcgcacaaagagcatgat gagttaacaccgttgataaatcgagcaaagtctttgcttacagttctactttctgccccccctcaaacggtttctgagcaaactca aaatggttttgatcagcgtaaaactgtatctgagaagtacaaggcattacagaacccaatggatagcatccatcgtctcccagact ggttattgcttgctaaaaagaatcgcggaactgaaagcgtcagccccggctggtttttaaaccaactggcgcatgcctccgaaaaa aaacatccctcgcgctggctgtggctgcagctatacctttgccactcttatcagcttaaagacactcatccactggagcgcacggc aatactctgtttttggcttacggtaaatgcgctacggcgtcacattattatggacggacaggggcttgcgtgttttaccgagcgtt attttaatggtgctttacgtgcgggtaagaaagctgacagtagcaatatgcgctacctgtttgccggtaaagacgatgtggccgaa gtgaaagcatccccaaaggctttcgatcatgagatggtcactggattttcctcgacattgctgaaaaccctcggcattccagctgt ttttccaccgtatatttttggtgagcatgagattaagccagatgaacgcgtgctgcgctatattggagcactggagcgctggcagt tttgtgggcacttttctcgctctaaaactgcaagtcgcggcaagcgagcaaaggctgatttgcaggctaactggacagaagcggag cgattgttacagaaactgtacagtcataatggctggaatcatcccgtcttcttagggggtaaacgtaacccacattttcattttca gccgtcgaactggtttcgggggcttgatgttgcaggggatgaaaacgtactaaaaattgcaggctttgccccgatgctgcgctggc tacgaagtggattatatcccgtaccagaagggcttcgcgccagtatgagttttcatttcagtattcatgccggggaggattacgca catccggcgtcaggattgcgtcatattgatgaaacggttcgcttctgcgaaatgcgggagggagaccggctaggacatgctctggc tctcggaattgaacctgcgctctgggcgaaacggcatggtgaaatgatactacctctggatgaacatttagataatcttgtctggc agtggcactatgctacgcttttatcggcttcattgcctctcgctcaggcggtattaccgctgcttgagcgtagaattgcacgcttt attgcacggtgcgaatggtgcaaaaagagacctccgcaaatagataacagtgtggtggggaaacaggcctgtagtgatgataaacc tctggaaaatattacacctgatacgctctaccgggcctggctactgcggcgtaattgttcatatcgactccagcaactccacggcg gttcccctttgacctcgcaagagaaatgtgcgctgccggattgggccacgctcagcgataaaggcaatgtggcggcgcagctttat cagcaaagacactcgagtctccttgacgatatgccgccgcaactggtagttgtgcgtgtagcggacgaatggggaactcaggagct tattggcttgggaaatcctggtaaactgcgtcagcaggctcttgacggtaaagatatcctccaagacattgatacgccggtagagc tgcaatttatgcatgctttacaggactatttgctagatcactatgatcgtaaagggttaattatagaaaccaacccaacatcaaac gtatatatcgcgcgattcaaaaagcacgtagagcatcctatttttcgttggaatcctccggatgaagaactgttgaaaccaggcgc tgaatttaatcgttatggattgcgccgtgggccagtcagggttctggtcaatactgacgatccagggattatgcctacgacattac ggacggaatttttactactgcgagaggctgcgattgagcgtggtgtcagccgaacgatggcagaatattggctggaaaggctgcgc ctgtacgggctggaacagtttcagcgtaatcatttaaatgtatttgaagttattgaatagaggattttatcgtgagtggtacattc ccttacttgcaatatacggatgtcaatgggctacaacctaagctcaaagaagagttgaaaaatttacggagaaaagagtatttgtc ctactggcctcgttttctgatacgtagaatttcgctttatgctcttccattcctcatgttcttcacttttttcttttgtctgagtc tgacgaagaaagttggggcagaggaagtgactaatattcttggaaccgtgagtatatccttcagtagttgcctgctgctggggatt attatttctggtgtcgtgttactcttgcagtggacgtgcttcaactgtaaatacagtccgcaggatacgaatggagttgttggggc tcgtaagttaaattataaattacttgctcatgttgtatttgttattgcatgcgtgcttttatttgtttttatttattgcaccaata ataaagtgttttatggttttatcgtgtttcttggtttgacattattaccattggtaattgaccgtaccttgggggtgactcgtcaa aatgaacgtcacaaactctatatcagaaggttagagcgcctcgatgaattgaatattctccgggagaaaatgaatattaaattcga agaatcccatttcatcgagtatatgaagcttgttgatgaagctgatcacggaaaaaaccaggatacagtaagcgatacatcctatt ttatgacgttgatagaaaataagctaaaagtgtaatcggttttaatatgatgctgtataaaaaactacgcaattgcgtggtttttt gtcggactatgagggcaaggttgccctaaaacagaggttaaacgttgggatgtgatttattgcacatcatgccgtgcccatccagt agaatccggttcgaaatgtgtataggattgtgtatatgtttctgttcggtctcggattcttatacac (SEQ ID NO: 28) 32 pLG034 accgtgctggcatgtttttacggagtgacgctttcattaacctgtacacgaacttctattccggcatcatgacaggcctgcagcca ctgcgccacttccagcggatcgccctcccggcgtaccactctgccttctttattccataactgcagacaggtgctgccgtcgagacg caccacaaaatccccacggcaggcctgataggggtttgagggccaaccgtacgaaaacgtacggtaagaggaaaattatcgtcttaa aaatcgatttatgctatcacagtcgtctcttcaggtaagtacggttgcctttgcctgctttcttctcgtctggttaagttaagaaat tcagagatccatgcttgagataaaagcggaataaaaccagtaaaatgtaactaaaacaacaacggaattgtatcaatgataatgtcc acaccgtggctgacaccgatcgttgccgatagtgatcatgctgaggcaaatgcagtgagctatgaagcactgactccgacagaactc gactcagataaagcaggctgttatatcagcgcgcttaattatgcttatgaacatccggatatccggaatattgctgttaccgggccg tatggggcagggaaaagctcagtattaaaaacatggtgcaaagctcacaatgggacactgcgggtgttaaccgtttctcttgctgat tttgatatgcagagacatgtggatgaaagtaatggggacagcagtagtgacgaagggacgaaaaatactggtagtgttgaaaaatct attgaatacagtattctgcaacaaatactctacaaaaataaaaagcatgagcttccctgttcccgcattgaccgtatatcagatgtg actgcgggacaaatattgcggtctgcgtcttttctgacaggaaccattttactgagtggagctgctttatttttccttgcgccggat tacgttacaacaaagctatctttgccgggagcattcgcccgttaccttcttgaatgcccgtttggggtgcgtgtgtccggtgcagtg gcatctgtgatgggatcgttatgcctgcttttgaaccagttacatcgtatcggtatatttgacaggaaagtaagtcttgataaagtg gaccttctgaaaggcgctgttacaacccgggcatcatcaccttctttacttaatgtctatattgatgaaattgtctatttttttgat tcgactaaatatgatgtagtgatattcgaagatcttgaccgttttaacaatggccggattttcgtgaaattgcgggaaatcaatcaa attattaataactgcctttctgacagaaaacctgtaaaatttatttatgctgtcagagatggtattttcaactcagcagagtcaaga acgaaattctttgattttgttatgcctgttattccagtgatggataaccagaatgcttatgagcattttgttaaaaaattcaaagaa gaagagataaataataacttaagcgaatgtatttctcgtattgcgacatttattcccaatatgcgtgtaatgcataatattacaaat gagtttcgactctatcagaatttagtcaatagtcgggaaaatctggccaaactacttgccatgatagcatataaaaatctctgtgcg gaagattatcatggtatagatagtaaaaaaggtgttctttatcattttattcaaagctacttagaccatgaaattcagaatgaatta ttacattctgcaaataacgaacttgaggatatggcacagtcacttgtagcgataacaaatgaaaaactcgcaaaccgggaaaatctg cgcgaagaactgctcatgccttaccttagtaaaaattatagcggcgcgcttgttttttatacagaaggaaggcaaataagtcttgat gatttgatacaagatgaagatgaatttctcatgcttttagataaggaaaatattcaggtcgttaccccctataacagacaaaatttt ctcatgataaatcagcgggatacagaaaaactgaagcagcagtatgaaaaacgatgccatttaattgaaactaaatctgttgataat ataaccagagtgaaaaataatatttccagtctggagtcattgaggaccgaaattctttccggaactgtagctgatatagcagaaaag atgacaaatgaaggctttgttgcctggataaagaagaaagaggatacaggtgtcctgacgattcagtcggaacatgaacagattgat tttatattttttctgttatcaagtggttatttatcaacagattacatgtcctatcgctcaatcttcattcccggagggctgagtgag acagataatttatttcttaaggatgttatgtctggtaaaggtccggaaaaaacattctcattccatcttgataacgttaataatatt gttgaacgactcaaaaagctgggggttctgcagcgtgacaatgctcaacatcctgctgttatcagatggctgattgataatgaccct gataccctgaaaaacaatataatggcattactgagtcagacgggtagccagcgtgtggttagtttgctgatgttgatgcagaacgat ttcacaacgtatgttcgcctgcgttacctggagatttttatgtcagatgaacatatactgaacagattgctggcacatttatgtgcg tcagaagaacgcacacccgagcaaaagttttttgttcaggaaatagcggcacacctgttatgcctgactgaaaaatcaaatatctgg caatcggttgagattaataaacgtatcggtgagcttatagattcctccccaattcttattactgctgtgccaaaaggatatggtgat gcgttttttgaagtgttgaaagataatacactttcagtttcatatattccaggtgatgtgggagacgagaagtgttctgttatcagg aaaattgcgggtgcaggattattcaaatattccgtcagtaatcttaaaaatgtttatctttgcctgacgcaagacaagaatgaagaa agaatgtcattctctctttatccgtttcattgtctcgagtccctggctatttctgaattaacagaaattctgtggactaacatagaa gattttattttatcggtatttattgaatcggaagagattgatcgtattcctgaattgctgaattcttctgaagtctcaatgactgtt gttgaacagattatagccaaaatggatttttgtataaataatctggatgatattattaatcgttcagagtgtgcggacaataatgct tcagggagaaatatctatagcatgctgttgcagcatgacaggatttttccatcctttgataatattattcatttattgcatgataca tcaattaatacttccggtgaacttgttcagtgggtaaatgagaaacactttgaatttgaaccatctgatatagtcataaatgataca ggaatatttaataattttatttctgaattaatttgctcgccagtcatttcagaagaagctttactgaaagtactgagtaatttaaac gttgttattatcgatgtgcctgaaaacattccattgcgaaatgctgaactgttatgttcagagaaaaaactggcaccgacagttaat gtctttacggtgttgtttaatgctctcagtgaaaatgttgatgatattaacaggatgaatactctgcttggtaaccttattgcccag cgtcctgagattattacccaggagccagaagatattttttatatcgagggtgactttgatgaagaactggcaagcgaactttttcgt cacaagctaatcggtatgaatataaaagttgccgctttacgctggttgcgtgataacaaaccgggaattcttgataagagctacctg ctgtcattagatattctggcagaactgagtccctggatgggtgacgatgatctgcgcctgacactgcttaaacgttgtctggttgcc ggggatgctggcaaagacgcgctttgcgtggtgctgaacagttttgctgatgagagctatcatggactgttaccacatgacaggttc aggaaaatccctcactccgtggatttgtgggaagtggccgaattaatcagcaatcttggatttattcagccgccaaaaatggggtca gggcgtgatgaacacaaaattgttattactcccgtacgctatgtccgtgatgttgagttttatgactgagcatcattgatacggtgt tttaattgccttaaatacaaaaataaaaacagattaatgcttaatgtgcattaatctgttttagttatcaatggctgttaattattg ttaattttacattaatctttctttttcttcaggaagatccgaaaactcctggtcacggatcttcct (SEQ ID NO: 29) 33 pLG035 attatctgccaaccgataagatggctgcctaagtcgtagcgattcagcactgttttagcggcgctcgattgcaaagtcgtgctttg ctgacttgcgattgtgctctttacgagcaaagctttcaggtatagtaagtgctaactgtagtgtaaaattatagggatagatgaag aaaacaacgaggctttagctaatctttgcagttgtgtctgctataataaggcgaaattttatctgcatgattttgtttgattaact ccgaaagccagctctctcggtgaagattgggaagggatatcaatgagtgatgatagctataaatttcaaaagttaacgccgttcag cgatgttgagctgggtgtatataaaaatgcgatagattttgtttttgccaataacgatctaaaaaatgttgcgatatcagggcaat atagcgcaggaaaaagtagtcttatcgaatcctataagaaaagtcattcaaatataaagtttgttcatatctcacttgctcatttc agatcgattgaggaagctgaaactaatgaaccaagtaaagatataaatgaaaccgcgttagaaggtaaagttcttaaccagttaat tcaccaaattaatgctgatgatattccccagacacattttaaagtaaagaaaaaaataaaaactaacaacattgtgataaacacca tctttacggtgttatttatcgccatgatactacatatcacgctatttaataagtgggaaaagtttgtttcacttttatctgaaggt aatataaagacactacttacattatcaactaaatacgatacgcttttaattagtgggtttatatgtactatcctatcttgtatttt catttacaagttaataaaaacccaaaagaatcgtaatgttcttaagaaaataaatttacagggtaatgaaatagagatttttgaag aaagtaacgagtcttatttcgatagatatttaaatgaagtattgtaccttttcgagaacgttgatgctgatgccattgtttttgaa gacatggaccgttttaatagtaataacatctttgaacgtcttcatgaggttaacagactggttaatattcaacgggacacagcagg gcacaagaaatcgacgttacgttttatttacttgcttcgtgatgatatcttcatttcgaaggatagaaccaaattctttgattata tcattccagttattcctgttgttgatagttctaactcttacgatcagtttatcacacattttgatggtggtggtattctcaagttg ttcaatgaaagatttctacaagggatgtctttatatattgatgatatgagaatattgaagaatatttataacgaatttcaaattta ttataacaaattaaacacgacagaacttgactgtaataaaatgttggccattattgcctataagaatattttcccaagagatttta gtgagttgcaacttaatcaaggtatggtttataccatatttagtgaaaaagacaaccttattattgaagaaataaagaaaatagaa aaagatattagagatagaaaaaaagagattgaggcaatcaatgatgaaatactcaactctagtcaggaggttgatgctatatacga taaggaattatctagatataataatcatcctcactataatcaggctgagaaagctgatatagcaaagagaagggcggctagaaaag aaagtgttgaaaataaatttaatggtaaaatagaagaaattaatgagcttatatcaagatcaagagaaagtttggttgattctaga aacaaaagacttaaagaagtaataactagagaaaacattgatgaaatatttaaactcacctataccaatgaaattggagaggaaag agactttaatgaaataaaaagcagtgagcattttgacttgcttaaataccttattcgtgatggttatattgatgaaacctataccg actatatgacctatttttatgaaaatagcctgagtcgaattgataagatgtttttacgcagcattaccgatcaaaaaggcaaagag ttcacttatcaactcaagaaccccaagctggtcgttgcccgccttcgagaagtggattttgaacaggaagaggcgcttaattttga tttattagcttatctgcttcaaacgccagcccaggtaaacttaataaaacgtttattcaaacaactaagaaaagatagaagagttg agtttattcgtggttactttgaaactgagagggctcagcctgtcttcattaatcgattaaatacacagtggcctgagtttttttct tatgcgctgacagagagtgaattttctgctgattgggttaaactctactctataggcacgttttattattctgccaatgacgccat cgaggccattaatattgatgattgtctgactgattacatctctgattcggcaggttatttagcaatatcagaaccgaaggttgaca aattaattagtggttttaagttgcttaacgtctcttttgtcagtattaaatUgaaaacgcaaataaagtactctUgatgcggttta ccagcattcactttatgatattaatttttccaacctgaccttaatgctgagtaaggtttacacgcttaatagtgaagatgatattc gccataagaactatacactagtgatgtcacaacctgattctcccttggctagttatgttaataaccatattagggactatctggat atggttttatctagttgtgatggttcaatcgtggatgatgaatccattgttttatccgttcttaataatgagggaatatctgatga acaaaaaggccagtatataaacgctttgcaaactttcgtgacatctctgagtgaggttgagagcgaatctttatggtcatctttgt tggataaagatagagcagtgtgctctgaggaaaatattgtctcttattttgaacatgttgatggactggatgactcacttatcgaa tttatcaatagaactgatgtagacctgaattttcaaaatattaatattgataacgagcttaaaggtaaattatttaaatcgattgt tatctgtaatgatttatcaaatgataaatatgaaaaattaatttgctcactaaatattatttgtaaaacatcctttagcgctagta atatcgcgagtgataagttcaaaatattagtggataaaaatattattcgtatgaatgttgcgccacttaatttcatacgagataac tattcagagcaactttcctattatattcataagaatatcagggcatacgttgaattaatgacgattgataactttattttggatga ggctatatcaatactttcttggaaagttgatgatgatttgaaagttaagctactcgagtttgttaaaactccgttggctatttata gtaagaattactctcaggtcgttaatgactatattttagaaaataattttaaaccagatgaacttctaatcttgacgtcatcttat aaaacttggggaacctctactcagtcgctcatcttgagtcgagcaatacaggatatatcagcattgatagcaagtcctaatgatgt ttctgaaccgttactaaaaaacctgtttgtcgcagagggactgaatatgcagaataaaatagcactgctaatcgctttgttgccgg gtaaggatttgagtaagacgacttgcaaagagtatcttgatctgcttggtttatcggagttcagtaaaattttggggcgaggcaaa cctaaaattgaagttgattcaactaatcaaagtttattaacagcattaagagataaccacttcttctctgattttgaggtggataa tgaaaatcccacttattataaaataacaaggcggcgctctatgtttggctcagatacatagcattatgtatttttctacagtttgg gcacttttatagtgcccaatttttacgctgaaacttacgcagataatctgactttttcccagttgacgagtacacctag (SEQ ID NO: 30) 34 pLG036 atctatagcagtcatcatattggattattggtgaagtggtacactgaatttgcccacctgaacagagttggttttatcaaacctgt agtttactcaatgacgtaaaaattggtgatgtaaaggatataaaaatgtggtcagacaaagagtcatcagaagactacctaaattt tggtgaagtatctcagttagccgtggatgtacttaccacgaaagatatgttaccagtatctatcggaatttttggaaactgggggg caggtaaatcctctctgttaaaactgatagagcaaaaacttgagcaagacgacaaagattggattgttatcaattttgactcttgg ctctatcaggggtacgacgacgcccgtgccgcacttcttgaagtcatcgctacagaattgacaaaagctgctgaaggtaattctac ccttatatcaaaaactaagagactccttagtcgagttgatggttttagagctatgggattactagctgagggtacagctttaatgg caggattacctactggcggtttgctttctagggggattggtgcattaagaaatatcaccgatggcatccagagccaggaagagtat gaggctttaggcaatatagctaaagaaggtaaagaaactgcttgtggtttgattaaaccacaaacaaaaaaaagcccccctcagca gattgatgcctttcgtaaggaatatggggaaattctagaagaacttggaaagccactcattgtggtaatagataacctagaccgct gtctccctgccaatgctatccatacacttgaagctatcaggctattccttttcttgactaatacagcctttattattgcagcagat gaggacatgattcgctcttctgtggctgattacttcaaaggggcatcacagcgccatcaaatagattatctggataagctaatcca ggttcctattcgggtgcctaaggctggggtccgtgagatccgttcgtatctgttcatgctttatgccattgaacatggcttagaag gcgaaaaaataactatgctccgtgagggcttagagaaggcgttacagcaatcctggaaagatgaaccaatctcacgtcaggaggcc ttaaaaatgactggtgaagcggatgatagcaacctcgcgctggcgtttgcgcgtgctgaccgtattgctcccattttagccaactc tccaattattcatggtaatcccaggatcgttaaacgcttgttgaatgttgtgaaaatgcgatctcaaattgcgaagcgacgagcaa tgcctttggatgaagcaattattactaagctagtaatttttgaacgctgtgttggagtggatggcaccgctgatttatatcatctc gtggatattgaacaaggtgttccccagatacttaaacagcttgacgataatggcggtcaaatacctactgatgcaccaaagacatg gactgatagtccaacgactaaatctttcatcagtcaatgggcccaacttgaacctcgtcttggtgggattgacttaagggccgcca tatatctgtcccgagaaactatgccaataggtgcatatgtggttggtttatcgccatctggacgggaagtactaaatgcactaatt gaattgaaaaacactagttctcctacagcagaaaaccttttgaaagcacttcctcgtgaggagcaaatacctgtaatggaaggttt aattaaccagttacggcaggtatcagattgggatcgtaagcccagaggcttttccggcgcatgtctgttggcccgctactcaacag atgcagccagcatattaattcgttatctacaggaattacagttggggatgaaacgaccagcgtggatgactgcagcattaaaagat gaacaatggaataaggacgcttaatgggaacatcacaatcaagtaaaggtccaggaggtggctctccgctggttccaccatgggct gatgatcagccacagcaaccgttaccctcgccgcaagaaaggaggtttgcgccatttcgagaatcgttgggaaatgcggtatcaaa tggaaatcgagcagatttcagaaaagccatagggcactacgcgcgaaaagcctccggagggagcagtaacgctgctcggcgattag ggagtgtcacgcaagctggggccgaattatttggggctttagtgggaatgccttcggctcccggagaaccaagcatcgatttgggc agtttggcaggccttccatgcgaaatagcaatatcaactattgctcaagctttaacatcacaggatggtgactcagaaaagatctg tgcggccatgaaccatgctttagtggaggctcttgatggcgtagaaattttcgatcctcaaaaaataactgatggtttgattgttg acacaatgattggttatctagcggaaagtattttccttcagatggtaatggattctaatagggcatggaacaaagcagatacacct tcaaaggcaattcatgcagaaattgaactccgggaattgattaaagttgttgttgataaacatatggcaccaaaacttgccggtaa cataagatcgttcacacgaaaccaaatggtaaaaattgaacgtcaggccattattgaggcctggcaagaatgggaggcataccagt gacacaattagttttccatcataaacatcaccatttgccgccagcaagtgagaaagtgttacctgttcagctatatggattaagtg gtcagaggcgcggagatatatctgttatcgggaatcctgcgattgatcggatcagacgtttgggagtacagcttccagctaaggtc atggattttctgagtgttgcattagcagtaactgcagcagatactttcgttcagcgtgaaagttccgaggatggttggacccgcca attgtcgttacgactcccccttcatgaaccatccagatggattagtctaaagaaagaacttgagagtgctttgcattttcttagtg gagacatctgggatttcgaattttgtgacgatggttatgcaccgccagagccttatagccagcattcaaggcatcgtctgattaag ctaaaagggcttgactgtgtcagcttattttcaggaggtctggattcagctattggtgcaatagatcttctggctgcagggcgcgc tccacttttggttagtcatgcttataaaggggataagtctcgtcaagatcagattgctgaaaaattaagtggccaattttcgcgct ttgagattaatgctgacccacacatttatcaaggcgtgactgatattacgatgcgaactcgtagcctcaattttcttgcccttgcg gccgtaggtgcttgtgccgtacaagagatatctcaacaagaaaagattgatttgttcgtacctgaaaatggatttatctcattaaa tgcaccacttactccacggcggataggttcgctgagcacacgaacaacacatccacattttattacgagcatacaaaagatctttg atgcgctcggtatttcttgtcaaataatcaatccatatcagtttaagacaaaaggaaaaatgatctccgaatgttcaaataagcag ctcttatctaaaattgtggaaagtacagtatcctgcagtcattggaaacgaatggggcagcaatgtggggtatgtataccgtgtat cattcgacgagcatcacttcatgcagggggaattagtagagatgttgaatatattttccagtccttagctaaagtaatgaatgaaa tagatcgcagggacgacctgatcgcccttaggattgcgatcacgcagaaatcgactttgaaaataggtacatggattgccaaaagt ggccctttgcctacggcagaatttgataatttcaagcaagtatttaaggatggcctagatgaggttgaaagctatttactgagtga gaacatagtatgagcatcgatatgcactgtcatctagacttatatcctcggccagacctcgtggctgaagaaagtaaacgtcgagg gacttatattctgtcggtgacaacaacacctaaagcatggcatggtacttctttattggctaaagaaagtcaacgaatccgaactg ctcttgggctacatcctcaaatcgcgcatcaaagatcgcatgagttagacctgtttgattcattgctttcggaaactaagtatgta ggggaaatagggcttgatggtggacagggatttaaagaacattgggatattcaattgaaagtgttccgacacattctcaacagtgt aaatcgggctggtggcaagattatgactatccatagtcggggaagtgcatcagcggtgcttgatgagattgaaaatatcgatgggg tggcaatattgcattggttcactggaacacctaagcagcttgaaagggcaattgatttaggatgctggttctcagtggggcctgct atgctcgatacaataaagggtaaggccttagttttgaaaatacccaaatcacgcattcttacagaaacagatgggccatttgctaa gtttcgtaatgacccactaatgccatgggatagtgggattgcagagaaacagttagccgcattatgggggattagtcagatggagg ttaatgctcagctagttgataattttaaggtattatgtacatcataagaatgaaaaacttagatatgcatttacagttcaattcat ttttcgtcatcagttaattacacataaaattaaaagtaagaatatatctaccctgtgaatgagcaaggcggatttatatagtttgt aattagtttaaatgtaagcagttcgtcagagtgcgtattccgctctattcgatcacggattggccgttatgaccc (SEQ ID NO: 31) 35 pLG037 gaaattatttggaatggatgatggcgcttgattactggaacaggtctatgacatgaaggttatgatttgttcactgctatgaggtt aacactttaacaatttcccttactattcttgtactaattccttccaaatacttctgcttgagattaggatttatcctcttgtagtg ttatttacaataaagattgtgatgctgatttaacccaacgtgttgtcagttgccttgctgaactaagttcagtatctagaaattag ctcttgatacatgagcgaatcagcgaaaattttcatcccgaccaattaatgaccgtaatggataggatgttgctgctatttggctt ccatgagggaacatatgtttttaaacgatcaagaaacgtccactgacctgctgtactacaccgctatcgccagcacagtggttagg cttgttgatgaaacgtcagatgcacccattacgattggtgtgcatggtgattggggggcgggaaaatcaagcgtactaaaaatgct tgaggctgcctgcgagaaaaaggataaaacgcactgtatctggtttaacggatggacgtttgagggattcgaagatgctaaaactg taatcatcgaaaccatcgtcgaggatcttgttgcctcgcgcccgatgagcaccaaggtggcagaagcagcaaaaaaggttcttcgt cgaattgactggttgaaaatggccaagaaagcggggggactggcgtttaccgcatttactggcatacccacatttgatcagattaa ggggatgtacgaactggcatccgactttctaagtgctccgcaggacaagctttctgctgcagatttcaaagcgtttgctgaaaaag caggaggcttcatcaaagaggccgatactgatagtaatacgctacccaaacatattcatgctttccgtgaggagttcagggcgctg cttgatgctgctgaaattgaaaagctagtggtgatcgttgacgatcttgatcgctgcctgcctaaaaccgcgattgaaacgctcga agctattcgccttttcttgtttgtagagaaaactgcatttgttatcggtgcagatgaagccatgatcgaatatgcggtaaaagacc atttccccgacctgcctcaaagcaccgggccggtaagttatgcacgcaactatcttgaaaagctcatacaggttccatttcgaatc cccgcactgggaactgcagaaacgcgtatatataccacgttgttgcttgcagaaaatgcgttgggttcggaggacgacaattttaa agcattgctcaataaagcacgggaagagatgaagcgtccttggatcagccgcgggcttgacagagaggcagtgatggcagcgttaa atggaaagattccggaggttgtggaaaacgcgctgctattcagcctacacgttacccctatgcttagttcggggacacatggtaat ccaaggcagattaaacgctttttgaactcaatgatgttacgccaggcgattgctgatgaacgcgggttcggtagtgacattaagcg tcctgtactggcaaaaattatgcttgctgagcgtttttaccccagcgtatacggaaagcttgttcagcttgtatctaatcatccag agggaaaaccggaagctttggcggagtttgaagccttggtcagaggggggaaaactgctccgaagagtcgcgctgacagcaaagag aattcctcagagtctgaagacgtccaaaactggctgaagattgattgggcgatcggttgggcaaaagcagagcccgcactttctgg agaggatcttcgtccatatgtgtttgtcactcgtgacaaacacagtactttgagtaatctggtcgtatcaagccatctcattccta taatggagaaacttcttggtccgaaaattgggatggtgaaaatcaaaggggatttagagaaactgagtccaccggatgctgatgaa ttattcgaaatgcttagcgataagcttttccaagaagacagtttcaatcgaaaaccaagaggatttgacggcctcgaatatctcgt agaaacacaacctcaccttcaaaggagattgattgattttgcacggcgcattcctgtaaaaaaagcagggggatggcttgctaccc gtattgcgcaaagcctagtggaccctacgttaatagaagaatatacaaaactgatccaagaatgggcgagtcaggacgaaaatctg tccctctctaaatcagcaaaagcaaccctccagttatcgggatatcaacattaatgggaacctcaaaagcttacggggggcctgtt catggcctaatccccgatttcgtggagaatccatctccaccgaccctgccgcctgttgaccctgcggatgatagcacgctggatac gccgctcattccaccggattcgagtggctcagggccacttagcacaccgaaagcaaactttactcgatactcccgttcaggaagtc gtagttctctgggtaaggcggtcgctggatatgtccgcaatggagtggggggcgcaggcagggccagccgccgtatgggggcctca cgcgctgcagcagggggactgctcggtctcatcagcgactatcagcagggaggtgctactcaggctcttgagcgcttcaatcttgg taatttggcagggcagtctgcatcgactgctcttctctcccttgttgaatttttatgccctccaggtggttctgttgacgaggggg ttgcgcggcaggctatgctagagaccatcgccgatatgtctgatgtaggagaggagaattttgatgagctcactcccgatcaatta aaagaagtctttattggtttcgtggttcactccattgaagggaggctcatggcggatattggtaaaaatgggatcaagttaccaga cgacatagacgctatcgtcagtatccaggaggacctgcatgattttgttgatggagctactcgtacacagctccgtgaggagctga ggaatcttacagggctttcaggggatgctatagacagaaaagtggaggagatttacaccgtggcatttgaattacttgcccgagaa ggggagagattggaatgagccatcataccttagttgcccgtttgggcactgacgataactccgatttacagctcagccgccaaagc acgcatctgacagaaattaattttctcaaagagaacggtaaactggatttcggtctcgggcaggcgctgaatggtttgagtgatct tggtttaacgccaatggatgtctccgtggatctggcactactggccgcaacggtgactgcggcggacacccgaatctcacgtgggc ataacgctcaagatctgtggacgcgcgaaattgcactttatatcccggtagcttccccgacattatggaatagtcagactggattg ctcagcaggatgttgaattttcttaccggcgaccgttggacaattcatttccgctcgcgccctgttattgagcacgggctcattca gcgatcctctaaggaacgttcggtgaaccctacttctgtttgcttgttttccggggggctcgacagcttcatcggtgccattgatt tattatctaatgggggaaccccccttctgatcagccactactgggatacgactaccagcgtttatcagcagaagtgtgctcagctg ctgtcggagcgatatggacaatcgttcagccatgtgcgagctcgtgttgggtttgaaaaaacaacgattgagggagaagatggaga aaacacccttcgtggccgctctttcatgtttttctcgctcgcgacaatggccgcagacgccctcggcgggccggtcacgataaacg tccctgaaaatggtttgatctctctcaacgttcccctcgatccgcttcgtgtcggagcgctaagtactcggacaacccatccgttt tacatggcgcgttttaatgagctgctgggcaaccttggcatcagtgcacatctggaaaatccctacgcctacaaaaccaaaggtga gatggctatccattgccatgaccatgcttttctaaggcaacacgcggctgacaccatgtcatgttcgtctccgcaaagtacgcgtt ggaaccctgcgctgaatgagcagcaatcaacacactgtggccgatgtgttccatgcttaatcaggcgagcatcattgtttacagct ttcggcacggacgatacgatttaccgtatcccggatctccgtagccgggtactggacagctctaagcctgaaggtgaacacgttcg ggcatttcaatttgctctggcaagattggcgcgatcaccgagtcgagcaaaatttgatattcacaaaccagggccgctcagcgact atcccgactgcttagctgagtatgaaggtgtttatctgagaggaatgaaagaagttgaacgcctgctgagtggagtcataacgagg ccccttacatgaaattagcaggacagaagcccgctccacaatgggtcgattttcactgtcatctggatctataccccaatcactct gcactcatccgtgaatgtgacatttcacgtgttgccacgctagcggtgacgacaacccccaaggcatggatgcgtaaccgggagtt aacttccgattctccttatgttcgtgtcgcacttggtctacatccccagctgattgcggaacgtgagcatgagatagcgttactgg agcactatctcccttctgcacgttacgttggggagatagggcttgatgccagcccgcgcttttatcgcagctttgaagcacaggag cggattttttcccgtattctgaatgcctgtttcgagcagggggataagattctcagcatccacagcgttcgcgctgcagccaaagt gttgggacatttggaaaacaccagacttactgaaaattgcaaggctgtcctacactggttcactgggagtatctccgaggctcgac gagctgttgaacttggatgctatttctctattaatgaagagatgctacgttctcctaaacatcgaaagctggtgtcctttttgcct ttcgaacgtatcttgacggagaccgatggaccttttgtgtttcacgaagaaaaagcgatacaccctcgtgatgtgcagcgtacggt tcatgaaatcgcgcagatccaccacgtatcggacacagatgctgctatgagaatactttataatcttcgaagtttagtcaccaata gttctcacagtgagaatagttcatgaatctaattagttggattaatacaggggaatagttgaatacttcagtcccctaaaagctaa tatgctctatgtcatctaatgataagtggctccaaagagccacttatcattaacttttctaaagggaggtagaagt (SEQ ID NO: 32) 36 pLG038 ttaatgcaaacgcatcaggaagggcagacctagtcacatgtagaatacgatagcaataaaaaagtctaattagaatgcaaattgat gcaactctatgccctccaagaactccaaacctgaaagatttatgtaaaacatagtgttcgtttcaccaaaatacatataaactaca ttaaaatagaaatttgtctcacctataagccatttagacaacagattaatgaggtttgtatcacaaatgaccacaaacgagatact ttcgcagcttatcagtcttggactcaaaggggataaagttgcttttgttcggcaggcttcgaaactcgcgcgttcctatgattcta tggggctgcctgagcttgcttcagccattagaggtagtattcaagataaaaacacgtttaacttgcagaaagtatcacgcagtaca tcacctatttttgaacgtcttgatacattacctgtagataaagaaactaaatttgatttagcagacgtaactcaaccgtcttctga aattcaactcccattgttgaaagatagcactctgaaaaaaattaaagaatttttgactttcactgaacgagctaaagaattaaagg atgccggtcttggcgtgacatcctctatgattttatatgggccaccaggttgtggtaaaaccttgacatcaaaatatattgcatcc tgtctaaatttaccgcttcttactgcaagatgtgactccttagtctcatcatatctggggtctacttctaaaaatatcaggcagct atttgagtatgcaagtaaagcaccatgtgttttatttctagatgaactagattctctagcaaaggctagagatgatcagcatgagt taggtgaactgaagagggtggtggtttctttattgcaaaatattgacaatctacctgaagaaacaatattgattgctgcaagtaat catgaaaatcttctagatagcgcagtttggaggcgctttgagtatagaatatctattggattgcctgattttgaagtcagaaaaca actatttgaacaatattcaaacataaaagctacatatgacgattttgttgatgaccttgcggaaatatcatcagggctaaactgct catttatagaacaatgctgcttaagatctgagcgacatgctctggtttacaataataaacaaatcgatacccgatttttagtcgag gctatcttagaagcgaagggagttacatttgatgaagaagataatttacttataaagattgtgaccactctcagagaatacaatcc caaaagatttacaatacgaaagatagcaaaaatactagggctttcaaatgctaaagtgtcaaggctaactaagaactatagagaga tattatgagtaacaaagaaagaccaataaaaataattgaggcgacacctcaagattttactgaaaaaacatataatttcggaaaga aacaacctatccgaacagtaacaactagtctaaaaaatagactcaaacaagaagtcgatgacgttaaaaattttttccagagctca tttaaaaaatggcccaatataccggcggtggctagagttactcttcatgaaaaagctcttgctaagtcacatcgcccatcaagcct attaggtgataatacatgtcccgtaataggcagtgataattttggagaattacttataagtgttactgaaaaagggttagcacaac ttcgcaaaaaaattgaaaatagcactaattctcataatgggacagtacatattgctgtaattgaaaagatcgaaccttttagtctt aaccatgatgttatagataaaaataaatcagatagttttcttctgaaactctttgaccataaagatagaacaactaaccgcagtat cgacaaagaattaatggaatttgcagatgaactaggaatacaaaaacccaaaaagtatgatatcagttcagatttgagtatatatg aagtaaaagggaatgataacatcgcccaactggcaagttttattggcatacgaaaattagaacctatgccaacatttggtcttact catacagtatcgcaatatattcctgctgaaactctagacctagatgattttcccttacctcaagaggataaacattatccactact cggaattatagatagcggagtcgatcccaataacaacatacttaggccatggatttgggatagtttagatttagtaaaaggagaac acgactattctcatgggaacatggttgcaagtttagcaattaatggaagatggttgaataactatgctggttttcctcaatgccaa gctgaaattgttgatgttgcagcctttcccaaagatggtacgctcaaattgccacaattaatgaaagctatccgagaggctgtgac cacctatccagaagtacgtgtatggaatctgtcattaggttgtcaatccccatgttctgaagacagcttctctgaattggggcatt ttttaaatgcacttcatgatgagcatgattgtcttttcgtcgtagcatccggcaactacatttatgatcctcaacgaacctggcct cctcaagaattaggtgggcatgacagaatatcagcccccgcagattctgttcgttcattaactgttggctcagttgcccatttaga atcgtctgactctgtggtcaaaagatttgaaccttcatctttttctagaagaggtcccggcccagcctttatacccaaaccagaga taaatcactttggaggtaattgtgacagtaaattaaactgtgaacataccggaatcatagctattggcgaggacaatgctctttgc gaaagtattggcacaagtttatcagcaccgttaatctcaagtttagcggcatcactgtggcatgaactagatgttaatggttctat ttcaccatcgcctgaacgtatcaaggcactattaattcattctgcgttaaaaaactcaccagccaaaacggagcattatgcgttta attatcaaggatttggacgcccaagcgatcatataaatgatattattggttgcaataaaaatgagattacatttctatttgaaata gatacccgagaaggtattgaattcagtagaacgccatttgtaataccacagtcattacgtactgaggatggaaaattcacaggtga aattattatgacactcgtttattctccaccgcttgattatgactacccatctgaatattgccgttctaatgtggatgtgtcattcg ggacttacacttatgatccagttaacgctaaatggatacatagcggaaaaattccacaaataaaagaaaagagtgaattatttgaa aaggtactgatagaaaatggcttcaaatggtctccagtcaaagtttatagaaaacaatttccgcaaggtataaatggggagcaatg gagacttaaacttgatgttcagagacgagcagagcaagagcctctatcttcacctcaacgtgctgtattggctattacgttaagat ctcttgccaattctactacagtctacaacgaagccgaggttgaaataaataatcttggttggaaagaaactgatattgttgttcgt gaacaaccaaaaatcaggattcgtcaaaaataagcattatggtcaccttttataggtgaccat tta (SEQ ID NO: 33) 37 pLG039 atagaacgatgaaggatggaagctacatattctcggtactaagatttatttttctgacacaaaatgaccatttggcgttacataat cccaaaaaaacgtatcaaaaatctcaaaatgcgttacgattagagagtattttgattctgcgtgctcattttttgattgctgtggc tttttgttgtgggagtgttgaatggattatttatcagaagtgttaaaaatcattgaaggtgcaacaaaggcaaatgcttcgatggc tagtaattatgctgggttgctggcagataagctcgaacaaaaaggggaggtcaagcaagccagaatgataagagaaaggttgctta gagctccccaggcgttggcaggagctcaaagggctggaggtgggatatctctgggctcattaccggtagatattgatagtcgactc aacactgttgatgtcagttatcctaaattagacagttcagagatttttctgcctgcagcaatcagtacccgtgttgaagagtttat cactaatgttcaacgttatgatgagtttgttaaagctgatgcagcattgccgagtcgtatgctcgtgtatggaaagccaggaacag gtaagactatgttatctaagtacatcgctacccgcttagattttccacttcttacagtgcgttgcgatactttgattagtagttta ttgggacaaaccagcaaaaatcttagacaggttttcgattatgtaatgcagaggccatcagtgctttttttagacgaatttgatgc tttagctggagcaagaggtaatgagagagatataggtgagcttcagcgagttgtcatttcactattgcagaatatggatgcggcat cagaggatacggtaattattgcctcaactaaccatgagcaacttctggatcctgcaatctggaggcgatttagcttcagaattcca atgcctctgcctgacatacatcagagagagttaatttggaaaaatcgtttaaagaatatgatatgtagcgatctagatttaagtga tttatcaagaaaatcggaaggattatccggagcaataattgaacaggtgagcttggatgcacgtagggatgcagttattgaaggtg caagtgtgataaatcaccataaattgtataggcgtttgtatcttgctcaatcgcttatggaaggtgtaaatttaagcacttacgaa gatgaaattcgttggttacgttctaaagataaaaaattattttctatcagagttcttgctaatttgtacaaacttacatcaagagt aatttcaaacattctgaaggagtcaggagcatatgagcagaaggggtacacagtttagtaacgcaaaagttacaaacccaatgtta agaatccctttttccagtagtgacttgggtgcaatagtaaacgctggcggtggggcaaaggtattggttgatgtaacagccgaata tagacaagggctagtaagaaatttaacaaccagtaaacattatttagaatccaaactttcagagtaccctggaagcttgggtactt tggttttcaaattaagagaccagggaatagccaaaacgcataggccgaacaaaattgctcaagaggctggattgcaaaatgccggt catgccaaaatagatgaaatgttggttgctgctcatgccggctgttttgacgtattagagtcagtcattttacatcggaatattaa agcgattttggctaatctaagcgcgattgagcgcattgaaccttgggatgagaataggaaggttccaggaggcactgatggtttgt ttgaatcatcaaacatccttgtacgactatttgagtacacaggtgaagatgcaacttacaacaactatgaaaacgttatttctata ttagaacaacacggagttaaatatgatgagattagacaaaaatgtggtcttcccttattaaggataatggatttatccccaaatga tagatatatattagacattctcattgattacccgggtataagaacgttaattcctgaaccaaaatattcagcattcccggttagtg taagtgattctgttggcattgaaacaaatagctttcccgtaccatcagaagaattacccattgttgctgtatttgacactggggta agccccatcgcggcaacaattactccttgggtagtgagtagggaaacatacgtaattcctcctgatacgagttatgaacatgggac tatggtgtcttcattgatatcaggcgctcattttttaaatgacaatcatccatggattcctgatacaaaatctaaaatccatgatg tttgtgccttagatgaaaatggatcttatatatcagatttaattctgaggctagcagatgctgtaaataaaagaccagatataaaa gtctggaatttgtctttgggaggcggaccatgtaatgagcagacgtttagtgattttgcgatggagttagatcggctcagcgataa atttggtattttgtttgtagttgctgcaggtaattatgtagatgaacctatacgtacatggccaaatcctgatccgcttggaggtg ctgatttaatttcctctcctggagagtcagtccgagcactaacagttggttcagtttctcatatggaagctaatgatgctttaagt gaaattggaacaccgacaccatatactcgtcgtggccctgggcctgtatttactccaaagccagatataatccatgctggcggtgg ggttcatagaccttggaatgtaggagcaagcagtttaaaggtcgtagggccagataataggctttgctctaattttggtactagtt ttgctgctccaattgtggcaagtttagctgcgcatacatggcagagaatagccactaatacagactttaatgtttcaccatcattg attaaagcattattaattcattccgctcaattatcttctcctgattactcgccaagtgaaagacgctatttgggagcgggaattcc taatgaagttattgagaccttatatgatagtgatgataggtttactctgattttccaaacattcttggttcctggggtgaggtgga gaaaggataactatcccataccatcggcacttattcaaaatggaaaatttaaaggtgagattgtaattactgctgcatatgcacca ccactgaaccctaatgccggcagtgaatatgttcgcgcgaacgtagagctaagttttggcttaattgagaataatactataaaagg aaaagtgcctatggaaggagaaaacggtcaatctggatatgagagagctcaaattgagcatggtggaaagtggtcaccagtaaaaa ttcatcgcaaggcatttaataaaggaattacttcgggtaactgggctcttcaggctaaaacaacgttgagagcgaatgaaccggcc ttaatggagcctttacctgtaactattgtagtaactttaaaatcattagatggaaacacacaagtttatgctgatggcgtaagagc tttaaatgctaataactgggctcactatccattgcctgctcgtgtgccagtttccgtataacaactatataaatcaaacccgctgt agcgggtttgatttatttgtgggtgtgttttataaaaataccgcccatacacaacaaaatacaa (SEQ ID NO: 34) 38 pLG040 gggacactcaggttacataacaatgagtgatacagttcacgtagtgaaggtactatgcctaggtgtttgattacactttgatcatt gatgatacgctcatgaaggtattactttcctgtaatgagcaggtaggtaacgatgtcgaactaaatgaatttatagtaaactttgc aacaagagaacaagggagtatgaggggttatggctactgcagagcagatcaaagctttattgaaaagccacgttgatcgtgatgat cagcgtttcttttctattgctttgcaggtggcagctaaggaagcaaggcaaggtcatcataagcttgctaatgatataaaaaactt agttgataaaaatcagaaaacaacgagttctgtaggtttagttgaaaaacgacttacaccatttgttaagcagcctgatggtgatc ttaaggggttacttgagcaaacgaacaagccagtacatcttcaagatctggtgatttctggaagcgttagggaaagattgaatcag gttctgcttgaacaaaaacagaaagataaactttctgagtttgggcttattccaagaagaaaaattcttttcactggtcctcccgg tactggtaagacaatgtccgcatcagtcattgctacagagttaaagctaccactttatacagtcgtcttagataatctaatcactc gctatatgggtgaaactgcagctaagctgcgtttaatttttgaccacatacggcaaacaagagctgtatatttttttgacgagttc gatgctataggaactcagcgtggcgctcagaatgacgttggagaaattcgtagggtcttaaattcttttttaatgtttgtagagca ggatgattctgagagcatagttttagctgcaaccaatcatccagagcttttagatcgcgccttatatagacgatttgacgatatta taccgttcacaaggcctgaggataatctaatcaggaatcttattgaacagagactcgctgtctttgacctcggtaatttattttgg agtgagatcattgatagtgcttcaggtctaagtgcagcggagatcacgcgagcaagtgaagatgctgccaaagaatcagtgcttta taatgcaaacaatattacaaccgatttgttagtaaaggctataaagcgtaggcaagaaagtagacaataagggatgaaatgactac caacaagaggcatattttattaaacggctatgtttcccccgaaaactatcgctctaggagcaatggtcgtagtccccaagtcccag ctcgtgatcgagcggtacatggtatatcattactaaatcagtatagccgtatattgaatcattatgatgaaagaccgaggcttccc cctgttactgatgaaaaagggatttatgttaggctaatcagttttgaacaatgcgatcttcctatagataaaatcgataatactta tttcaagctttgttctttagttaaatcaaataatcgtgaaactgcgattatatacattaatgaaaatgacagaactaaattcacta aaaaaataaatgactatttgaatccatcgaaggatggtatcgagttccctagaaatcatttgttaattgatagcatacaaaatatc gagttagcagatataacttctttctggacagataaaaaagatcttattccggatgatcacggtgttgaaaagtggtttgagctttg gcttaagggtaataaggaggatgtgctaaatattgctcggcgtttatgcgaaagaattaatggaaggctcgggaatacttctatta attttttcgatactactgttgttcttatccgtacgagtctatcgagattaaaagtttgtcctgaattaatatctaatttaaaagag ataagatcagcgagggatgatatatcagttatagttaattccttacctacagaacagcatcagtgggcagaaaatgttgctgcaag aattacgcgtaacaatgaagctgatgtttctgtttgtatattagatacaggtgttaactacaataatccactattatctagattta ctaactcatcactggcagctgcttgggacatatcttggccacttttcgatgattataatcaaaggccttataatgaccacggttcc agacaagcaggactatgtgtttatggagatttcctgtctgttttattgaacgatcaggacatttcgattccgtacaatatcgaatc aggaaggatactacctccaagagctactaatgatcctaatctttatggagctattactacaggaacgtcaagtcgtctggagctgg aaaacccgaactggcgcagagtttattcgcttgctgtgacagcagagcctaatactcttggaggccaaccgtcctcatggtctgca gagattgacaagtttagttttggtttagaggatgatatccgcagattatttataatttctgcgggtaactctcaacctacaaattt agaattagattattgggattcagtgactcttgctgaaattgaagatcctgctcaatcttggaatgcattaactgtaggggcgtata ctgataaaacaacccatacagaccgcgaatatgatggttggtctcctttcgctatgtcagaagatattgcaccgtcatctcggtca tcggtatcctggggatggaaaaagcatgccccatataagccagatttagtagaggaaggcggaaacaaacttatatcacctagccg tgatgaaatcacaaatacaattgaattatctttgctcacaacctctggcagggcaacaaatcaattgtttgaagttaattcagata ctagcgcagcctgtgctctagtatcaaaacatgctgctatgctaatggctcagtacccagaatattggcctgaaactattagggga ttacttgttcatacagcaagatggactagtcgtatgcacgaacgatatagaacagaacgtgcacaggggacaccaaaatcggctaa agaaagcttattaaggatggttggttatggagtacctaatttaaatcgagcaatgcatagtgcggaaaatgcacttacattaatat ctcagtcggaaatcaccccatttaaaagagatggttctactgatcctacattgaatgaaatgcatctgttttcactcccttggccc gtagaagctcttcgcttactaccaccagaaacaaatgttattttaagaatcacattgtcgtattttattgaacctaatccaagtca aaaaggattcagacgacaatattcgtatcaatctcatggattgagatttgcagttattagacctaatcagacccttgaaaatttcc gtgcttcgataaaccgtaatgcgaataatgaagaatacaatggacctgaaggagatgcgtcaggatggtttctggggcctcaactc agagttagaggttcattacactcagatgcttggaaaggcagtgctgcagatttaacagagatgaatactatcgctgtctatcctgt tggtggatggtggaaatatcgtactgcgcaggatcgctatattaacaatgttaaatatagtttattggttagcatagatgtaccag atgagaacattgatatttacagtgagattcaaaacattattcaaattgataatcaaatagatattgaacattaaggttttatgcct aaggtttaatgagtttgaaatgaaaaatcctttactaattggctgggtcgatgataaagacctggccatctttttatacggaaatg atttatgttttattttactaaatttatattagaaccatcgtgcagattgtgataattccttcatactgattttttacctattatag ttgatttttgttgcttgatatctctctttaatacaacggcgtagtac (SEQ ID NO: 35) 39 pLG041 cggattgaatctgtttatgaaatttggctgctatcaactaatgggcgttaagttgattgtatgatctgattgataaagaaggggct aaaaatctcctcttctttgcagcagtttactgcggtctttttgtgatgcatcagcataaaacgttttacttgtggaccctaagaaa tggagaacattatgtcgactgtagatacctctacagcagaggaactcaatcaaggaggctcagattttattctgacttccctcgag gctatgcgtaagaagttattggaccttacgtctcgaaatcgacttttgaatttccctatcactcaaaaagggtcttcactacgtat tgttgatgaattaccagaacagctttatgaaaccctttgctcggaaatcccgatggaatttgctcctgtgcccgatccaactagag cgcagctgttagagcatggctatctcaaagttgggccagatggtaaagatatacagttaagagctcatcctagcgctaaggattgg gcgcacgtcttaggaatccgtacagattttgatttaccagatagccataaaacggttgtttctgattcagatagagagttgctgga aaaagcccatcagtttatcttgcaatatgcccaaggccagaatggaaaattaacagggattcgttctgaatacgttaatcaaggta tagctttgtcagcgttgaaggaggcgtgctgcttagcaggctatgaagggcttgaggattttgaacgacaggcaaaggctgggaat gagattagtatatcttcttccaatccctctcatgacgataatcggatacaggctctgctttatccaaatgaactggaagcttgttt gcgcgccatctatggtaaggctcaaactgctttggaggagagtggcgccaacatcttgtatttggcgttagggttccttgagtggt atgaaagcgattcctctgaaaaggcacgttatgcaccgttatttacaattccggtgagatgtgaacgaggaaaattagatccgaag gatggtctttacaagtttcaactttattacacgggtgaagatattttgcccaatctctctttgaaggaaaaacttcaggctgactt tggcctcgctcttcctttgttcaatgaagaggaaactccagagtcttattttgcttcggtgaagaaggttgtagagcagcacaaac ctaaatggtctgtgaaacgttatggtgcacttagcttgctcaattttggcaagatgatgatgtatcttgacctcgatcctgcccgc tggccttgtgacaagcgcaatatattgtctcatgaagtaattcgtcgctttttcaccagtcagagctgtggtcaagagaattccgg cttacctggtggcttcggtcagcatgagtactgcatcgatagttaccctgatattcatgacaaggttccactaatcgatgatgcgg atagctcgcagcacagtgcgttgatcgatgctatccgtggtcaaaacttagtcattgagggccctcctggtagtggcaaatcacaa acgatcaccaacttgattgcagcagctctgctcaacggtaagaaagtcctgtttgtggcagagaagatggctgcactggaggttgt caaacgtcgcttggatcgtgcggggctaggtcaattttgcttagagttgcacagtcataaaactcataagcgcaaggtgctggatg atattaatgctcgcttggtgagtcaggcgaccatgcctactatggaagagattgatgctcagattttgcgttatgaagatcttaag cagcagctcaatgaatatgccgcattgatcaataaccaatgggcgcaaacaggcaaaacgatccatcagattttgagtggtgcaac ccgttatcgtcacaaattagatattgatgcaacagcacttcatatcgaaaacctttccgggaagcagttggataaagtgacccaat tacggctgcgtgaccaaatagtagaatttagccgcatctacaaagaggttcgtgagcaggtgggggctaatgcagaaatatatgag cacccttggagcggtgtgaataacacacaaattcaattgtttgacagcgctcgtatagtcgatttgctacaaacttggcagacatc aattatcgactttcaacatagctatcaagaatatgtagataagtgggcgttagaaggcgaaagccttaatacgcttcaatatattg agcaatfggtagaagatcagtcgaatcttccagtgttgtgtggttcagagcatttcccagcacttagtgagctagattcacccgat gccattgcacgggtgcgtcactatttagataggttcgagttgctacaaggtcattatgtggccttgagccaggttatcgagcctca aaagctacgacttttagaacaaggacaatcgtgtgactttcctcgtgaagagctggaaaaatatggtgcagcagaggatttcactt tacgtgatttggtcaggtggcttgaatccatccaatcaattcatgatgagttatcatctatttatgcgcaattaaacgatttcaaa aatgctttgccagatggtattgcttcgtatatcgatgattcgcaagctggattgctattctgctctgagttgttgtcgattctggg tgctttaccgactgagcttattagagttcgagatcctctttttgatgatgatgatatcgatgcagtattgcgcgacttaatgtgtc aaatcgaaacattgcgtcctttaagagatggtctatctactttgtatcaattggaccagttgccttcccaagagatgctcgcgcat gccgttgctgttatccagcaagggggattatttgcatggtttaagagtgattggcgtagtgccaaggcactgctcatggcgcaatc tcgaaagcctgacactaagtttgctgagttaaaacgctgctcagctgatttgctcaagtattcggagctgttacaacggtttgaac aaagtgactttggtaatcaacttggtaatgcattccgagggttggacaccgactgtgaacaactcatgttattgcgtgattggtac aagaaggtccgagcttgttacgggataggttttggaaagcgagttgcgataggctctggattatttaacctagatggtgagattat caaaggtgtgcatttaatcgagaaatcgcagattagctcaagattaatgactttggttaaacgggtcgagcacgaggctaagttat taccgcgtatttctagcttgttggaagaacatgcatcttggttaggtgagcaaggtgtattgatgcaatcttaccgacaggtgcgg aatactctcattgccttgcagggatggtttatcaatccagatatatcattagagcagatgactcattcctccgagattttgcaaaa cataaacgatcttcagatatcccttgaaaatgactcgttacagttaggggcgtttttacaattaaccccattggcttgcggtgcgt ataaaaataatcaactgacgttagacactattaacgacacgctgaattttgccgagcaactggttgataagataaattgcgtatcc ttggctacccagatcagacatttggctagtggtagtgattacgatttactatgtcgtgatggtggagaaatagtttcgaaatggaa tgaacagattaaaaatgctgagttatatgcgctagaaacaaagttagagcggagtcagtggctcaagtcgactgatggttctctta atacattaatcgagcgcaacgaaagagcaatacagcaaccccgttggttgaacgggtgggttaactttattcgttgttacgagcag atgcatgaaaatggattgcagcgaatctggagtgctgtacttgcgggctcgctcccgattgaaaaagttgaattgggtttagcatt agcaattcatgaccagctggcgcgggaggttattcacatccaccctgaattgatgagagtttccggctcacagcgcaatgctttgc agaagtcatttaaagagtacgacaaaaaactgattgaattacaacgtcagcggattgcagcaaaaattgcttgccgaaatatacca gaagggaattctggtggtaagaaaagtgaatatacagaactagctttgatcaaaaatgagttgggtaaaaaaaccagacatattcc aattaggcaattggttaaccgtgcatgtaatgcgctggttgcaattaaaccttgtttcatgatggggccaatgtcagcagctcatt acctagaacctggacgaatggaatttgatctggtggtgatggacgaagcgtctcaggtgaagccagaggatgcattgggtgtcatc gcgaggggcaagcaactagtggtcgttggtgacccgaaacagctaccaccaaccagtttctttgatcgaagtgccgacggagaaga tgacgatgatgccgcggctttaagtgatactgacagcattttggatgctgctttgccactgtttcctatgagacgtttgcgttggc actatcgttcacgacatgaaaagttgattgcatactctaaccgccatttttataacagtgatttggtgatattcccttccccaaat gctgagtctccagagtatgggattaaatttacctatgtgtcaaaaggtcggttctccaatcaacacaatattgaagaagcccaagc agttgctgaggccgtacttcatcatgcgcatcaccggccgggtgagtcactcggggtagtggccatgagttccaagcaacgcgatc aaattgagcgcgctatcgatgaattgcgccgaaatcgccctgaatttaacgatgcaatcgatggcttacatgccatggaagagcca ctttttgtgaaaaaccttgagaacgttcaaggggatgagcgtgatgtaatctttatttcctttacctatggaccttctgagcatgg tggaaaggtttatcaacgctttggacctatcaattccgatgttggctggcgtcgcttgaatgtgcttttcactcgatcaaaaaaac ggatgcatgtgtttagttcaatgcgttctgaagatgtattgacgagtgaaaccagtaaacttggtgttatttcgttgaaaggtttt ttacagtttgccgaaagtggcaaactagattccctcacaacgcataccggcagggctccagatagtgactttgaggttgctgtaat ggaagcactcaatcacgctgggtttgagtgtgaacctcaggtaggggttgcaggattctttattgatctagctgtgaaagatccag gttgtcctggccgttatttaatgggcatagagtgtgatggtgcggcttatcactcagctaaatctgctcgtgatcgtgaccgtttg cgtcaagaggttctggagcgtttgggttggagaattagccgcatttggtccactgattggttcagtaatcctgatgaggttctatc tccgattatccgtaaactccatgagcttaaaacattggctccagacgttgttgtaccttcctatgaatatgtcgaaacgattgagt caagcgctgaagtggcgtctgactcaattgattctcttatgcccaatttggggcttaaggagcaacttaagtattttgccacacat gtcattgaggttgagcttcctaatgttgatgctgatcgtcgtttgttgcggcccgcaatgcttgaggctttgctggaacatcagcc tttatcacgttccgagtttgttgaacgaatacctcattatctgcggcaagcaacagatgtatacgaagcacaacgctttcttgacc gagtcttggcattaattgatggcgcagaggctgaagcgaatgatgcagcgtttgagtctgaattggcataattagttaaaggtaat aagaacagtgacaactgtcgg (SEQ ID NO: 36) 40 pLG042 gctatcctacctcagattactgggctgacctaatctatagatcaggttctctttatactttatgttagcgaaatactaagatgctt cttagtgacgacctcttgacggtagaggacgcgtgcatagattttacaatcactgcctttcgccccctaacctaatccgcgaatga tgcatcctgaacttgcgcgccagttcttatactcgccgtcagagcaatcaaattgctgatgctttctgcctgttcaaggcatctcc tgtcgtcagcaatactgtgcatatttgattgatttcctcttaaggagaattagtttcatgggtattaaagcgcaggtgagtatcgc gcacaagctggggttcacatcacaccaaaatgcagttccgctgttacgtgagcttatcttgcataatgagtccgaagagacatttc aggatctgacactgcatctgaggaccgtgccagctgtgctcgaagaaaaaaaatggaatatcgatcgcctgcttcccggtacttca cttgatatcagagatcgggatatcaaacttaatgctgaatggctagccgaactgactgaaagcgtactctgcgaagtcacgctaag tttgcgccagggtgaggaagaactcttcattacccattacccgcttgaggcactggcgaaaaatgaatggggcggcagtgcaatga ttgaattgctcccttcatttattattcctaatgatccggctgtggatcgtgtactcaaggcaacctctgatgtccttcgccgtgca ggcaaggatgacgctcttaatggttatgaaagcaagtcgagaactcgtgtctgggaaattgcctcagctctctggactgctgtttg caacctcaatatcagttatgcccttcccccagccagttttgaacgcaatggccagaaaattcgcactccaggagccattctggaag gaaaagtcgcgacctgtctggatacaacattattatttgcttcagcactggaacagattggtctgaattcactgctaatgctcagt gaaggtcatgcgtttgctggtgtctggttacaaccgcaggaattttcgcagctagtgacagatgacgtctctgcggtgcgcaaacg tgtcgacctgaaagaaatggtcgtatttgagacaactctcgcgaccagagctcacccgccttcatttactcaggcatctgatgaag cgttaaagcatcttaacgaggatgtttttcacgcagccattgattcccgtcgcgcgcgtatgcagaaaattcggccactggctctg gggggcactcgccttgaagaccagtcggatgcctgcgaggttattttgcatgggtttgaggaagccccctatatccccgatgttga tattgatatcgagacaactggcgaaaaagaagccggggggcggctggtacagtggcaacgaaaacttctggacttaaccacccgta accgcctgttacacctgtctgaaagcgctaaaggcattcgtttgatctgtgcgaatccgggccatcttgaagataaactggctgaa ggcaaacgcattcgcattgtcccgctccctgatctcgaaagcggcggccgcgatgccgaactttatcagcagctcacaaatgagaa cctgcaggaagaatacgctcagattgcgctggaacgcggtgaagtcgtctcctcaatggaaaaataccgcctcgagtcatccctga tcgacctctatcgaaaatcgaaaagtgatctcgaggaaggtggtgccaacactcttttcctcgctgttggcttccttaaatggaaa aaatctgctgatgaccccaaaagttactctgctccactgatactgctgccgattcaacttgaccgtaaaagtgcactttcgggcgt gaccatgcgtttgctggaagaagagccccgcttcaaccttacactgcttgagctgctgcataatgactttgctctgacaatcaacg gcctcgatggtgatctacccaccgatgaaagtggtgttgatgtggatggtatctggaatatggtacggcgtgctgtacgcgacata cccggtttcgaagtcacccgcgatgtcgtgattggcacattctcttttgccaaatatctgatgtggaaagatctcatcgaccgggc acctcagctgatgcaaagtgcgctggtaaagtatcttatcgaacgcggccaggaaaatgccgttctggataagagcggagaagtca tcaacgctcatgaactcgatgacaacatcaatacgcaggatcttttcttgccgttgcctgcagattcctcgcaaatcgccgctgtt gtagcctctgcaaaaggcagggattttgttctggatggcccacccggtaccggtaagtcgcaaaccatagccaatatgatcgcgca taaccttgcgctaggcaggcgcgtactttttgtcgctgaaaagaaagcggcgctggatgtggtctatcgtaggcttgaggcccagg gactcggtgaattttgtctggaactgcactcgagcaaaacgtccaagatggattttctgaaacagctcgagcgggcatgggatgcg cgtgatctactaaccaccgaggagtggaaggaagaagcggccaaggtgcagcacctgcgtgacaaactcaatgaggttgtccgttt gctccatcggcgctggcccaatggcttaacactccatcaggcaatgggcacagttatcagggatgcaagtagcgccacgccgcact ttagctggcctgcatcgactttgcattcttctgcagagatgacacagttcagagagatagtaaaacgtctggagctgaaccgtgat gcatggaaacagcacggcgatcattttgaactcatcgcgcaggctgactggaccaatggatggcagtcctctctcattgctgcagc aaactcattgcctgcaaccatcgatcaccttgaagacgcgaccgaggcgttactgaaggcgacgggagttactctgctctctaccg agccggagagactgtcgcagttaacttcattctgtgaattattgtcggaagcttacggcattgatctgagtttcatgttcgcaccg gatgccgcaagccgtatagagtcagcgaataaagccgttcacctcctgaaagagattgaagcgacaaaggctaatctgtcagttac ctacccttgtaacagttggcagcacgttaatgtcccacagatcagaaacgcacttgacgtcgctgacaaaaaattctggttctttg cgaccagtgcccgcaagaaagtcattggtgaagttatccgacaacactcgctaacgtcagcccccgacttatccgttgatctcccc attgctgaaactctgcagacattgctgcaacgtctgaccgagcttaactctgctactgtatctctgccgggatgggttggactgga taccaacgttgcacagttgcagaccaccctgcaacttgccgaatctatccgcaattcgcttggtggtttcgcttcttcgccacagc agttggccgagatccgcactgcggtaaaaaacctgattgttgatgccaatgaccttctcggttcgcagggcgttatctccgcacta acccggaaactgcgcacagcgatcgccgatttcaatgatgcacaggttagcttctgcaatctgataaaaccatctgaggataaacc atcgctcccggcactgcgtgactgcgcactcaatatcctgcaacatcagtccgctcttaaagcctggagtgactggagccgtgtgc gtgaggaagcgatttcacatggcctgcaaccagtgatcaacgcgctggtccatcttgactcaggagacatcagcgcggcagagatt tttgaaactgcctattgccgctggtttgcatcgtggatgatcgattcagagccgctgctgcacaattttgtgccggctgagcacat gagtgatattgaggcttaccgtacgcaaaccgatcgtctgtccaaactggcagtacgctacatccgtgcccgtttatgtggcgtca ttcctgcaaaaaatgaggtcagcaagcagggtggttttgctctgcttaaacatgaactacagaaatcccgtcgtcataaaccggta cgtcagatggcagcagaaatgggagatgccatggccaaacttgccccctgcatgcttatgagtccgctttcagtcgcccagttcct gccctcggaccaggacttgtttgaccttgtgattttcgatgaagcatcgcagattgccccgtgggatgctatcggcaccatggcgc gtggcaaacaggtggtaatcgctggcgatccccgccaaatgccgcctaccagcttttttaatcgtgcagccaatgacactgacgat gatactgaagaagatatggaaagcattctggatgagtgtcttgctgccggcctgtataaccacagcctgagctggcattaccggag ccgtcatgaaagcctgattaccttctccaaccatcgctactatgacagtagcctgattacgttccccgcttcggaaacaaagcaaa gtgctgtccagtggtgcaaggttgcaggcgtctactctaaagggaaaggacgtcataatcaggccgaggcagaagcgatcgtcgct gaaacggtgaagcgactgactgataaagagttcgttgcatcaggcagatcgataggcattatcacgctgaataccgaacagcaaaa gctagtcagcgatctgctggaccgtgccagacagcaacaccctgaaattgaacccttcttccagtctgaactggaagaacctgttg tggttaaaaacctcgaaacggttcagggggatgaacgcgatttgatcatactctgcatcgggtacggcccgactgaaccgggcgca aatacaatgtcgatgaattttggaccgcttaatcgcgagggaggctggcgccgactgaatgttgccgtcacacgtgcgcggcagga aatgatggtcttcagctcgttcgatccttcctttatcgaccttaatcggaccaacgcccgcgcggttgctgacctcaaacacttta ttgagtttgcccagcgcggccctgtagctcttgcccaggcagtacgtgggtctgtaggcggttatgactcaccgtttgaagaggca gtggcaaatggcctgagaagaaaaggctggcatgttgtcccgcaaattggcgtatcccgtttccgtattgatttggggatcgttca tccggataagcctggcgactatcttgtcggtgttgaatgtgacggcgccacttaccatagcgcagcaacagcacgcgatcgcgata aagtccggagctccatcctgcagggcctgggctggaaattactgcgcctctggtcaacagaatggtggattgataaagaaggcgca ctcgacaggctggatgcagcaataagtcgcctgctggaggactccagagcagcggaagccgcactgattgctgaagcagaaaaaca aaagcagattacgccagtcatcgctcccgtaaccaatgatgtcagtgatgacatactggtttctgaaactacacctgtcgctaatg atgcggaaatatccgcgtcagtaacccctgtcatcccgcttactgccaaagtaagcgaagatgatggtaacactgggctgaggtat gcatctttagcttctcagaataacgacaagccagtgaatgtcggtaagtatgtcgttaacgatcttcaggaatggtgcgacaggac agatgcagaacaattctatatcgctgaatatgatgagacacttaaaaccctcattgaagcggtggtgacaagtgaatcaccggtcc tggatacaacgcttgtgcaacgcatcgcacgtatacacggcttcactcgcgccggcagactgatacgtgaacgcgtaatggaaatt gtggatcaacactatcaccttgcaaccgatcactcaggtgaagacttcgtctggctgtccgcagcgcaacgtgctgactggaatgt gtttcgtttgccagccacggataacgacattcgtcaggttgacgcgatccccagtgaggaattacgcgcactggcgctgagtattg aaggtgacaataagatacaggaaatgacccgctcgcttggcattaaacgcctgactagtcaggcaaaaaaaaggattgaatcagta cttgatgttgtttgaaggtcaaccgtgtggaaaacctcttttagagactaacagtctgaaatatagagtcttattcgatcatcttg agaccgaatgtattagagtcgatttctgacacctcttatcgtggttttctgcatcaccaacatcgaccagttgggcgtaatcaagg aggacgtctggaaaacgaatctatggtcactcccgtttttgcaacaccgattttgacaataagttggtttgcttgaatctattcgg catcagaatggaattttttttccacgcctcgatgagttccgcgcctgatgaa (SEQ ID NO: 37) 41 pLG043 aatcccaccctgacaaaaggcctgaaaaggtcttttgtcatttcttcacagttagagccctatcgagacgcgcaaggaagagtcgc gccagcctgtttttacgctagcgctctgctagtgacagccagctcacagggagtgagctggcagtgtttaacgtcctaccgagggg cgtaaattgcacacagaggttaatgatggctaaagcgcactccacgccgctcaacgatattgcgattatcgctgcgaatttaaaag accgttataaaaatggcttccctgttctgaaagaaattgtgcaaaacgcagatgacgcacaagcgtcatcattaatctttggctgg agccctggtattgctggggcagatcaccctttattgggcgatcccgcgcttttctttatcaataatgcgccgctgacactcgaaga tgtagaggggatcctctccattggcattggcactaaaccgggtgatgaaaatgcggtggggaaatttgggctcggtatgaaaagcc tgttccatctcggtgaagtatttttttaccagtcctttgactggcatactgcttcggccaaatcagacgtttttaacccctgggac agttacagatcttcttgggccgaggtgagcgagcaggataaagttcgtattgaggatgaagtccgcgcaattacccaaaatgcgtg tgatgattatttcgttgtctgggttccgctgcgttcagagagtatctatcaggcgcgccaggatgatgaaaactttattattgtcg gcgaagactatcgttatgaggtgcctgattttatttcagacccgggactcggggataagctcgccagcctgttaccgctgatgaaa accttgcaggacattgagctggtcgtgaaaacagggcaggggtatcagcgtcaaatacatatctcgctgcctgaaaaggcaactcg cccacaatttaccaatcttaatggtgctggggaatggcaaggccacattaccgttcagcgtgctggattgccggaccctcagcaaa aattctacgtcgggcatgaggttttgctgaatgctcctgagttttctgccctgaaatcacaacgcgcctggccattcagttattca cgagaaggtaagaagactgcggataaagcgctgcctcatgccgctgtggtgatgctggcggagaaagtaccagaaggagaggcaac gctggcggtggaatgggcggtgtttttacctttgggtgagcaggacaccgcgcagcatgcgcagaaacaaacattctctatttctg gtcagtactcgtatcaaattattctgcacggttactttttcatcgatgccgggcgagtgggtatccaggggctggctacactcacc agcgccacgccgttattcaatgccccagattctccaggccaggaacaactggttcaggaatggaaccgctgtcttgctactcaggg aacgttgccgctattaccgaaagcgcttgcctctcttatgtcgcttattcacgccagggatgcggaaaaagcggcaatttcggatg gtgtgcgtagagctttacgcaacaataatgcctggttccactgggtaacgttgtaccatctgtgggtatgcgaactaacgcgggat ggaagtcagtggtgtttagttgatgcgaacactcccgttcgtcgattgcctgccacaccttcaggtgaagcgcatcgcccctggga agtgctgcccgctctggaaagtctgggtgtaacgcaccgatttatcgatgaaacgcagcagaatatctacaacgaatttaaaagta agtggcagttgtcggagattcaggtgttgctgcatagcgtacccgaaatggtgttcactagcttaaagcttacaaattatctcaat caattgctgaaagaactgccgattcagtcagacagctttgtgcttgacctgattgcattgctcagaaaaacgttatttagcgtgcc gctggttgagctctcacgtaaccaggcggcgatcggagaattgatggcgttcattcgtccgacctggcgttacaggattgccattg accgtcaggagcaggccctgtgggaaacgcttgggcgtaccgctatggataggttgttggttcctgcttttctcgataacagtaaa gaacctgccagcgcatctctgaattgggagacggttggcagcctgctgcaagcgatgcagaaacaggcttctgccagcgataactt tgaaaaattggtgcgggattttattggcaagctctcatctcccgatcgtcaggagctataccgtcggtttgataccttgaaggtct ttaaggtttcacagccaacggggatatcttacctggagacgcgctgtcacttgcttgaactaaaacaaaagcgaaggatattcaaa cttggcgggagcgctaattttggtatgggtttaagcgcattgttgcagcaggcattgcttgaaaaagaaatcgtattgatcaccaa tgatattaaccagaccttatttggtggttctgaatattcagaagcaaaggagtgtgacagcgaaggggttatccatctgcttgagc ttcaccctcgtctggattcgccgacaaaacgtatcgatttactcaataaaatggctgcggacggggacaaatttagcgccggagat cggcttgtctatcgctatctgatgcacggtaattcggatgatactggtgaagctgaattgtggaaggcgggtaaagcgcatcccgt atgggcaaaaattctttctgatgccgattcggagcaggtcaagtggactattatttcgccagaaattgagcagaatcttggactga ctcccggattcgagaaggcgcttaggcttgatagtgtaacgccggatcatgtgatccaccgcttcaaagaaagccttgaatatctg gagtttgatgacttatctgcagaagatgcggaagaagttctgatgcacattggccgctctatgggcgaaacaatgtggcggcagat ggctcttcatcgtagggaaggcaaagaggggtatatatcccttgatgatcgttgtttcttgcgtggggggcgcattgaactgccca ctgaattgaatgacaacgtgacgttcatccaacccgccagtcagccagagatgcaggatcagcagcgcaaatatctgacaatggtg aacgccgaacatgcggtcatgctggctttatccgggccgaacccggaacgttactgcgactttatcctgcaattgttaatgcaacc gacgaatgatttgtcttcagagagagcattcaataacctgcgccgccaaaaatggctattgcaccgcggtgtggcgatggcaccag aaaatattctggatattagcgcggcagactatccggagatcgcgaagctgacagaagcgacgccgctcatcgctctgcttgaggat attgctctcccagatgaggctaactgtgcgctgagttcattggtcgtgcgaggcaaggctgcgttttacaaggcgctcactgtagc aggtacacttccactttatgcaatcggtagcagcttacgtctcactgatacgattattcttcaggccagtgacaggtcgtacgcgt ttgagagctttgacggttggttgctcttaattgagtgtctcaaaggtgctgagtcgcttgagggtaatgaggctatcaatgcgctg agtttttcgcatccggttacagacaagatagttgctagctaccggcatctcgttgacagcatgaatccaacccaaagtggtgaatt gcgtaaagcactgttaagcacgctgtgtcatacccattcagatcccgccagcgtactgcgttcaatcccgctcagaacggctgctg atacctgggcgttagccaccaatctctgttatggcgtaacgggagcagaacgtagtgctgtcctacatgacgacgactgggcgtat ttgtccccttggctgcaggctaatgacttgtcggtagacagtactgagtccgaagggcatctcagtcatgttgagcattctgccaa tgtcttaagggaatactttgcgccctgggaacgctgggttccacgtaaggcaattgctgcactgctggctttgctggcggggaatc gtaaggttcataagctatgtgagagctacctggggttgcaaagttatgccctgttcgtgaatgaactgtcgcaagacagcaaaccc ttaactaaccatgacgctcactttgcagagttaacgctcttacagtgcattgagaaatatgcctttgccgtgaaggtttacgaaga aaacacgttgcaggttcattctctgttccaggaacgtttgaccgtggcgctggcaactgacctggatacgatctttgtgggtcagc acggctacgctttttataccggtcaggcaccgcaaatcttcattcgccgattttccccagaccagtatacgcctcagcaacttttg gcgattctgaaacgcagcaccagctggctgcaggaaggtatttatctgcagaaggcaaggctagacacgctctggcaatcctttga gcaggccgagcagttggatgtgaatatcgcgcgcgtcactatcctgaacagcattgttgagcgcctgaaaacactgggccttaaaa actctcagcttaacgttttaatgagagcctatgagagtgagcttcactctcttgctgaaagtagtgacggcaagttgctccacagc tcgaggctcactgaaattgtctatgacattgcaaatgctatccaggatcgccctgaactgcaggctgaaatattaacggcggtcag aaagcgtatagaggatgctcagtatcagccatcaagcgttccttttgagctgttccagaatgccgatgatgcagtagaagagttgt tcaagctggatagcgatgcccgtcatgagcgggtacaccagaaatttatggtgaaagagcaaaacggcggattgtcattcttcaac tgggggagagaaattaaccgctttcagagcgtgaaaaatgagcaagtcgagaatgtacatgatggctacaaaaacgatctgaaaaa aatgctggcgctttaccagtcggataaagagcagggcgttaccggcaagttcggtctcggcttcaaaagctgtctgctggtgtctg atcatccttacctattgtcggggcggctggcgactaaaatagcgggtggaattgtgcccgaatcctgtgatgctgaaagttataaa caactaaaccaactcactgaaagtgccgcgacaaatggcctgtcacctactcttgtgtatttgccactgcgccagcatatgcaagc ggaagtggtgttaaaagattttactctgtatgcaggtttgctaagtctttatgcacgtaacttgtgccagattgtcattgatgagc atgaatggcgctgggagcctgttcagtatgcacgtattcctggtctgtcattgggcaaggttatgctgcctaacggcaagggtgct cagtcgccagtgcgggtggtggtttaccagactgaaatcgatgatgagcgctgccatctggttttccaggtcacgcgtaggggcct gagaagttttgatactcatattccgcgattgtggaacttgtcgccattgatgagtgatacccggcagggctttttgattaacgctg gatttgaggttgatattggtcgacgccagttggctattgaagctgaccgtaatcggggcattatccagaaagcgggagcaaaagtt cattcgctgctggaattactttggtgggaaacggagcataactgggaggagctggttgttgagtgggaactgagccctgaattgac ccatactcagttctgggaaagcttctgggacgtgatgtctacaggcattagtaacgatattaacgcgatggaaaacgaaaaattgc tacagcagctttacgaaagcgaaaatggcatcatgagcttctatcgctcatatcccgcgctgcctaacggatttaaagagcaggct gccggactgataacgtggagcgacagagtgcgtagcgcggatgaactggtttctcgtctggcgagttcactgattcatctccctgc gtttcaggcattgcacagtgcacagtgcctggtggcagacacgacgggaagcaaacttaaagtcgaaagtaaactgtcgcttgaat cattaataagctcgtcgttgccggataaacagggtgttgatatccagcatctgtcaccgcgggatgctgaaaagctggcagtcgta tttaacgaagagttcgacaagcgactgggtgaactgacaggctggcaggacaaaattgaggctttcagaaaacagctgataaacct gcatgtgcaaacacaagcaggctctacacgcccgattagccaaattttgctcggtaacactccttgtgccgaaaaaaatgaacgga tgatctctgggtttgcacctaccgatgccatcatttcatcatcatattctaagcaggcctgtgaatttattgtttattgcaaacgc agaagtcagggatatgtttttgaggatttagtcaaatgggcaaagcgcaaaggcctggcggctgataatcaaaagcggcaggcatt ttgtcgttttctgattgaaggactggaaggggagaaactggcgggtatgctgatggaagagataccaccggactggttgcttgaac ttaagctgcgcccaggcgccttcccggcagactggcactggagcaataatgatattgcctctctcctgcaggggcggttactgact aacattgacagaacaaaggcatgggagcgcgagattcgggagacaccggaagaatacgaaccgttggtgacaccaggtgaagccgt acaaaaaatacacacctggtgggagaggaaccagcaggaagagttggtgaaatacaatgctcggctctaccctgaaggctggtttg actgggaagctttaagaaatgcctctgacgatcagcgttcacgcctggcgttattgaaactcctgtatctaggctcatgccagacc attgggcggactcaggaagagcaacacagtgccgcaattgagtattttgaggacaaaggctggtgggaaacctttatcaaccctga tgcagcgcagcaatggctggatgtgatggacaattatctggaggattctttgtacggagatacctaccgtatctggctgcaaatat tgcctctgtatcgtttttcaaagcatttagattcctatcgcaaactactggatatgtcggaagcgttccttgaggatattggggat ttgctgcgaccggcatccagtttcaatctttcgggaacgggcgtgggaactgtagtcccggagttacgtgcaactctgggtactgg ggtgaacttcatcttccgtgaattggtgcgtaataacgtatttatcgattccagcattcatcgatattgtttctctgcgccggaac gcgtcaggcgtctgttactggcgatggagttcgacgaaatggatgttaagcaatccactgccagtgactcgcttctgctgtggacg tttttccgcgaacatctcggtgaggaagatgcgacctttaatcattgtttcgacataccgctgcgcattttaaccagcgaagggaa acgctcacttcgtattgagatatttggacaggatcccctggattacgtatgaaaatgatctttcagcagggccagcaggtacgaca tgaacgctttgggctggggacgattgaactcttgcgggaaaacactgcactcattcgtttcgagtcgagttttgaagaacgtccac tttccgaactggagccggtgcgcagtgctcaggatgctttggcagaaggaaattatgacgatctgcgtgaagttctggcgcgcagt caggcgcttgcgatccgctccatcaatgatagttggggggtgttctctacttcacgtatcaacctgctgccgcatcagttatgggt atgtcaccgcgtgttacggcaatggccggtacaaaagctgattgctgatgacgtagggttggggaaaaccgttgaggcggggctaa tcctttggccgctgctggctaaaaagcgtgtgcagcgtctgttggttttagcgcctgcatcgttagtaccgcagtggcaggagcgt ttgcggcagatgtttgatattcgtttgtccctctactccgcggaaattgatactgagcgatcagattactggaatacgcatccctg ggtggtcgcttcattgccgacactgcgaaaagatattaatggcaggcacgagcgaatgctcaaagcagacgactgggacttgctga tcatcgatgaagcacatcaccttaactcgctagaagattcgggggcgactcagggctatcgatttgtgcagaagcttatcgatcac ggaaagttcgcctcacggctttttttcacagctaccccccatcgcgggaaaaattacggcttctttgctctgttgaggcttttacg tccagacttatttgacgtgaataagccatttgaaactcagcagcatcatgttcgggatgttgtgattcgcaataataagcaaaccg tcacgaatatggacggtgagcgtttgttcaagaccgtcaacgtgacctcacagacctatcatttttctgaggctgaacagtcattc tatgaccggctcacacgatttattctttcagggcaggcctacgcttcgtcgctaagctctgcaaaccagcaggccgtgcaactggt gttaacggcaatacagaaactggcggcaagttcggtagcggcaatttatgccgcaataaatgggcgtatcgccaggctcggggaaa atcagaaaaagctgcaggcgctgaatgatgaaatgaatgccatcatgagtgattctcaggccccggatctcgatgatgcctacatt gcgcttgaaagcgaatatgttgaaatgtctgcttcggttcaacttatgcaaaatgagctgcccatgcttgaagagctgcaggcgct tgcggggaatgtggaatcggaaacgaaaatccagaccttgcttcatgtgctggaaaacacgtttcttaatcgcaccgtcgtattct ttactgaatataaagcgacacaggccctgctaattaatactctgaatgctcgctttggctatggttgcgtcagctttatcaatggc gaaggacgcctggaagggatttacaataaacagggcgtcaaaacgtcatggagtatggatcgctaccatgctgcggagcaatttaa aagcgggcaggtacgctttattgtttgtactgaagccggtggtgaaggtattgatttgcaggacaactgttattccatgattcatg ttgatctgccgtggaatccgatgcgtcttcaccagcgtgtagggcgactcaaccgctatggtcaaaaaaatcaggttgaagttatt actttacgcaaccccgatactgtagagtccagaatatgggacttgttaaacagcaaaataaccacagtcatgcgttctttgggcga cgcgatggaggaaccggaagatctgttgcagcttattcttgggatgagtgataaagtttttttcaattcactttttgctgatggcc tgacacaaaagccagaaactctaaatacgtggttcgattctagagcagggaccttcggtggtcagtcagccgtcagcgtggttaaa ggtcttgtaggccatgcggataagttcgagtatcagaacttagatgaggttccgaagcttgatcttatccatatgtatggtttcct cgagaacatgctgaaattgaatggacaccgtctggacaatgataagggtgttcttagctttgtcactcccaaagactggatcacac agtttggtatcaagaagaaatataacaatatgacttttgaacgtgttcctacagagaaatcgttagaagtgcttgggatagggcat gtgattattaataatgctattaatcaggctgagaaatttaacgcctctacggcagtagcaaggggtatttcctcagctttactgat ttacacattgagagaccagattactggcgatagtaatgtacaatcattttcagttgttggagtggtactggaagataatattcaaa ttttggtcaacgctgagttagtcaataaactggcttttatatatgacaacctacctaaaggttcgacggtgattaagcttgacagt gcattccatgttaattttgagagggatataaagcgtgctgaggccgcattagatctctttattcctgggttgaatttaccctatga gcaagtagtatggcaacatacagcaacttttttgccacagtaaatatagcagtgttcaggatagcattgggaatgagaaaaactat atgaaaatatggtgctgataaagtattagtactatggtcgaacggctatgcgcttatgtcatggagctgattccagagagccttga aaacgaaagatttaattttccccccagcgtcatccgctctggcaggtgagtcgcccgagtccgagtgcccagcattttcaaatcac cat (SEQ ID NO: 38) 42 pLG044 tgagaacttacacaattaacgccaattttcttattccatcacgcatacgataaccgtgatcaactttttctttttgcagcacccta taatgcaaccagtttaatttctttggatgcgtaatagtcagtgtgctgctcttgataaacagtagtcaataggcatagtccatatc cgaaatctaacttttattaacgtacaaatagcaaaagaataaataacttagagcataggtcctcgaaaaatttttctaatgttcga tagtcttgcttttggcgtaatgtggtaagtccaataggtgataatgtgtatagttgcattgacctagtcttgtgagattgcattta ggatctccatcatcaattcatctttcgattcaatttcaaaaaaggttctaaaatggcgggtgcttcaatagacgctattggtgtga ttaaccaaatcaaagacaacttaacagaccgatacgaggatggctttcctgtccttaaagagatcattcaaaatgctgacgatgcg ggtgcgaacgaattaactattggttggagtaaaggtttctgcaatgcagaaaatgaactactcaatgcgccagcgctgttttttat caatgatgcaccactggcagaggaacaccgtgatgccattttatcgatagcgcagagctcgaaagctacatctaaggcatcagttg gaaagtttggtttgggaatgaaaagtttgtttcatatgggtgaggcattcttctttatgtccgatcaatggcgaattgagcattgg gcgtcagatgttttcaatccatgggataagtatcgtgatgcatggaatgaattcggtgaaaatgacaaatgccagatcgcaacaaa gttaaaagggtttttaagtaccgataagccttggtttgttgtttgggtcccgttgcgtacaaaagcgctagctaaagcacacaata actacattatcatcaacaactttagtggtgatgaaaaactccctagtttctttaatcaggctcacttatcagagaaaacttctgag attttgcctcaactcaagaatctcaaagacatcggctttttctgcgagtctgacaagggtgtgtttgatgaagtgacctccataca gttacatgaagattcgtctcgaagctctttttgcggtgaaccgcgattaaataatggagactcttttgcagtcttctcagggaaaa tctattcaaattcgaatgaagagcgttgtgcactggactatgcaggatgcgagcgagtcatctttgatgagcgtttaaatcaatta aaagacgaaaatatggggtggcctaagagttatcagttcgacaagaaagcgaacttgcctgttgaggctctcgacaaagctgaaca gcatgcttctgtaacattttcgcgttttaaaacaaaggggcaagcgtacctcaaagccaactgggctgttttccttcccttaagcc aaaccaaggaacttgttgctgtgcctatcgagggggagtacgactacaatctctatttacacggctacttctttgttgatgctggg cgtaaggggttgcatggccacgacaatcttgggttttctacctccctagagcatgtaaaaaatgatgagaaaaagctgcgtgaggt ttggaacatcattctagccagtgaggggacattcaacctcgttttaccggctctaaatgagttttgtcagaagttaaggctgccac atcaaataaaaactgttttgaccaaggctttgtacgatctcctcatagaaagatatagaaaagaagtatccaagagcgccaattgg ataatcaatatcgatgacaagggggctgcttggtctttacttgataagaatgcccaatgcttaccgatccctcgtccagagaatag tgattactctcgaatttggtcaacgttgcctggtttgagtaagttactggataaaaagtcactgtatgaagccacgggtaatgaat ttttaaccgagcagaatcaacgtgatagttggaatattacgctcctggaagaagcgttaggaagtggtgttgtcaacgcattttac agatcaatcaatattgaatatctgcttcagttccttcaactagctaaggagcagtgcacgacggaagattttgataacctgattat tccacagttccgagaggtattgtctactcataagcttgctgaactttcattgaacaaggctcttaacacgcaagtttttgagcttg ttagcgcacctaaaaccgtcgtactaccaattgataaagatgatcaatctatttgggaacttgtctgcaagatcattcctgcaaag ctactgctccctaaatttctgtctactcacaataagccaattcatgacaatgtcactgaagaagagctcttcgcacttttaaccct agtagatagctacatcaaaaaacagggtgaacgtttatcctctgatgaatcgtctgcctgtgagcgtctcattacatttgttattg attgtgtaaatgcaagtgaggtaatccaaaaaagcgatttttatcagaagagtgggcatttaaagcttctaaaagtggaagctctt ggttcgcaacagagcacaaaatatcgctccttaaacgaactcatagtgttaaaagaaaaataccagctgtttcttcgtggagggga gcggaactttggtaaagggttggggaaagagctagttgcagtcgtgcctggcttggagctttgttttataagcaaggattttgaaa ttggtggcctatatgaagggcttaccgcttgttctgaagccgcgtgcctacgactgctttccacgtacccaaatcttggttcaaat tcggcaagactagcgctcactaaagtattctctgccgagctctctacagatgaggagaaaagaggtttccggtatttgattcacgg cagcaaagaagacgacttgagacaaacgctttggaagccaaacagggcaactaacccagtatggatgaaaatttggcgtatgtgtc agccagaagatttccctggatggtgtgagttagatgaagagttttctaatgctttgacaaaccagtacgaacattttattggcgtt aaagagcagttctataaagacattatctctgaatacagaacaatactgcctgaatgcaattttgataactttgatgactgggaagt ggagcaactgctcgcagatattggtagtcaaggagatgaaaggctatggaaagcgttgcctgtccataggacagctcataacacta gagtcgcgattacgaccaaatgcctgatggaaggaagtgcaacagttccaagtgaatgggatgttcaccttattcaacattcagcc attgctgaagtcgccgcttgccagcataaatgggtgaatcatggtctacctaaagagctgatcgagattgcgcttacccaatcaag tccagctcagtattccgcatttattttggaccagctctgcgctattcgtattgcgaatgaaggaattgagcatgagttggaaggca agataaataataccaagtggctgcgattagcgtcaggaaccgaggtttcaccggaagctattttatctttctctgccaatgagctg cctgagtctgcaaagttctgcgagttaaaagagtcaaacatttacatgttctctcaactcgatggaaacatgtttgagcacgatca agcacgtggtttcttgagagagtgggtcgcaaaaagtaacagctcagtttgctcgtgcattttggcagaagccgcgcaacatcaaa gttatgtagttggtaatttttccaacatttctgctcaggtgctagaacagatttcatgcatcccgccattgatgcagctatctgca ggctggggcttactggttgagctctaccaaagccaatatctttcagtgaatgaaaacaagcaagtgatgctatgtaaggaaacaga accacaatcattatggtgggcgctggagcgtattgctgatgatgatattcacggtcagtcaaaggaacttcggaaagcatttttag aagcgttgtgtaacaccgagggaggcgttgattatcttcctaaactgagatttcgcaatgagaacggaagttatgtatcgggcaac acactggtatcgaatgttgctcaggtagttgctgataacttaatttcgccacaagaatacgcagtcattgagagttattgcagtaa atctgctctcacgaatggtaatacgtcaaaaatcattgagttagcgggcgataatgcgccagtacttagtgattacttcgatgact gggaagggatggttccccctgatgccatagcgacatttatagcactgtttgctaaatctggtggcgtcgagaaattggttaacaat tatctaagacagtcaacgctggagtcgataaagcaggggtatgaggaaaagtggaactccggaaagggacgtagaggcgaattttc acactatccgtatagctcgttatataaaagtgttgattttgaactggcaatttgtgcagaaaatgcggcgtacatgacgtcgattt tcggcgaaagaattcaagttaaattacaaaaaacaccagattcattgcttgttcaccaagcgaacaagtccaagacgaaaaggata gagcttcgccgagttgatacaaagaatgtatcaaaagaccaacttctccgcatgcttgccaaagctgtagaaacgatttttactga tgtgtttggtgcagagtgtattcgatttgaaagtgaatttttgaagaggtttggtgcttcagaacaggtagatattcagattaccc gacagatagtcttggagaatgttgtccccctacttgaaaggcttcaagtgcgagaagaaggactttgtgatttacgttcagattac aaacgtgaacagcgtgttttggcgagcagtgatccttctgtactacaagatcgctcacgccttaacagcgtccttacgaagattaa agagactcttgaaaataacgaaaaagtgcaatctttggtactcgaatctgtacgaaaagagatgagtaaacatttccaatactcgc ctttcagcgtgccatttgagctgtttcaaaatgccgatgatgctttgtgtgaacttattgaaatgcagggcgactcaaccaatgta ctgactcgatttgatgtggtttctggcagtgatgggactcttaacttctaccattgggggagagaggttaactactgtaaaagttc atatgtcgcaggcaaaaaccaatttgaccgcgacttagaaaagatggtgagtctcaacgtttcggataagtcagatggaaaaacag gcaagtttggactgggctttaaaagttcattgcttcttaccgacattccacgtttggtgagtggtgatatttgtgcagaaattcat gctggcgtattaccgagtgttcctagcaaaccagtgatgacggaacttaatcaaaatgtcgatgagtataaaattggaaatcgtaa accgacattaatccagttgcctaaatgtgataagaagcgggcagatttgaagttggttttgggacgtttcaaaagtaacgctggca ttctcacggttttttcacgacaaattcgagaaatcaatattgatgagcagcgatttgggtggtcgggacaggctctccataatatc cctgaagtacttgtcggtgaagtgaaactgccaacaaatacttctgaagagtctaacgttatccttcgaagtaatagagtgcttat tatcaataccgagtccggtcagttcctttttgctttggattctaacggagttgtttctctttcgaatcgaaaaaacctaagtagct tttgggtgttaaacccgattgacgaagatctgaaattgggtttctgcatcaacgcgccatttgcggttgatattggtcgctctcag cttgctgtagataacggagacaatatcgatctttccagttcactcggcaaagcgttatcagctgtgttggtcaaaatgtttgcagc ttcttcgaataattggaatgaatttgctgaagaggttggcctgggacaaagcagcacatttatcaagttttgggcgtcactttggg atgtaataacagcccattggccagcaaggcttggagagacgaactctaaagctgaactgattaaacaaatgttcacagtggaagat ggtctgcttgcgttttaccagagatgtgcggctcttcctcgaaatcttggtgtaaaggaagattctcttgttcaacttaaaaacgt tgatactggagcgaataaacctttgaccaaggcatttaataccttgggaaatcacccgatacttcaacggctatataaagaccaac aactcgtcgggcatgacacctttgagtttttgaagagtatcgattttagaccgaataatggtgcgttaactaagctcgaattgatc gatttgattggacaggactttcctcacaatgaagtaaaccacgacagagcaagtttctatggtcgcctatttggtaaaaactttga aaagttaatgtcgaattttgaaatgacagtgactgagaaaaaggtgttggaagagcgtttttctgaattgaagtttctcaacaaaa ccggtgtatacgtgactgcaagcaaactgattgttgaggggagccctgagagagacttgctatccaagtttgcaccagacagcgcg aagttaagtgaaaaatatgaccaagcatcaatggacttggttagcttcattcgtcgtgacgtaagctatgacattcattcatgggc taagcaaataagatctgaagaatctaacaggggaggaaagcaggaagggttgtgtagcttccttgttgaaggcggctatttagcat catcgcttctcagaaaactacagacggatcaccccgcgtttcttacaaagggacgttttgatccgagcgtattaacagaaaaatgg cgttggagttcttcaaaggcttcggctttcattagcatttggattgatacagaggaagataaagcaaggcacgtacgacaagcgca aaaagagtttattccgaatgtgaccaatggtgagcagatcctcgaaaacatcacgaactggtggaatcaatgtcgtaatcaaagct taattgattatgacaaacagctctatgctcaaccaatgccttggaaggcaatgacagaggacttcgagcttgaaacgttagaggtt cgtaaaggttggttgaagttgttctatttagggagttgccaaacattaggtttcaataacgatgtagctaatcggaatgttgtttc ttggttcgaggacaaggggtggtgggataaactagccgttgccaatggtcctagccctgaagtatggaaagaattaatggaagaat atcttcaaacagcacgcgttgatgagcgttatagagtttggattcaagttcttcctttgtatcgctttgctactaagctcaaggac tatgtcgctctcttcatgaacgcttcctttattgataatcttgatgatttgttaaaaccaaatagttcaaacaagttatcaggctc tggcatccaagtatctgagttaaaaggaacgctcggtattgggattaatttcattttacgagagttgcaaaggcaccaagttttgg agcgtgagtattgtgaagatatccaaaagtacgcatttgttttgcctgctcgattacgaaagttactcaaaaaaatgggagcaggt ttaagctttgacgcagagccagagaattcagagcgagcttacgactatttcgtttcggcattaaatagtgaaacccaccctcttct taaggactttgacatcccatttagagtcttgttggctgataagcaagcgtttgaacgttgttttaattttgctctagatgagcagt ttgaggaagtatatggataacattatacgcgttattcacccaaaattcggtgtcggtaccgtcgaattcgaaaaagctgagacatc tcttgtccgatttgaacatggttttgaggagtgtttgaaaagtgagcttgaggcggtcgctgatcttaagtccgatcttgtttctg gacagagtgtcgctgcctctgaacttgcgttaaaaacattagcgcactcactaaaaagtgttaatgaaaattggagtgttttttct aaatcgaacattaatttacttcctcatcagttatgggtatgccatcgagttctaaggcaatggccaacaaatcaactgattgctga tgatgttggtttaggtaaaacgatagaggcgggcttgattttatggccccttatcgagaggaaaagagtcaagcgtcttctgattt tgacgccagcacctttggttgagcagtggcaccaaagaatgcttgatatgtttgatattcgtttgagtatgtatgcaccagaaaat gatacctcgcgcgtcaattactgggactcaaacaatatggttgtcgcttctctacctacgctaaggaacgacaagaatgggcgttt agagcggatgttaaatgctgagccgtgggatatgctcattgttgatgaggcgcaccatctaaattcaacggaagataagggtggaa cgttaggctttcgctttatacagacgttgattgaaaatgataagtttgaatcgaagttattttttacagcgacgccgcatcgagga aaagaacacggattcttctccttattgcagttgctgagaccggatttgttcaacgttaagcaaatggatgagcgagaaatgcgccc atttgtgaaagatgtgttgattcgaaacaataaacaatttgttacggatatgaatggtgagaggttatttaaacctctgtctgtgt cctcaagaacttacagttacagtgaacaagagcaacatttctatgacctcttaaccaagtttattgtatcgggtcaagcgtatgca tcctctttgaattcaagggatcaaagagcggttatgttggttcttaccgcaatgcagaagctcgcttctagttcaattgcagctat cgagagagctctaaaaggacggatagagaaacataaactaggtaagcaacgtcttcaggatattgaagttcaacaggctgctttat tagaaaagcgtgaggagtcagaatcgcagtctgaaagcgagatatacagtgatgaattagcgcaattagaactggaatttattgaa acgacaacgcgggttcaattgatggatgatgagctccctagaattatggagttgttgtctgcttgtcagaaagttggctctgaaac aagaattttaacaatattagatatcctagaaacggagttcaaagatagaactgtcgtcttttttactgagtataaagctacgcaag cgctattaatgggtgctttgaataaaaagtatggtgaaggctgcgttacttttattaatggtgaaaatcgtcttctgaatgtagag aatggctcaggagtatgtgttgattatgtcaccgatagatacaatgccgcgaagcgttttaatgaaggcaaagtacgatttataat ttctacagaggctggtggtgaagggattgatttacaacaaaattgtttttcaatgattcatgtcgacttgccttggaacccgatgc gacttcatcaacgtgtggggaggttgaatcgatatgggcaagtcaaaaacgtagaagtaatcactcttcgaaatcctgataccgtc gagtcaagaatctgggatttgctgaatacgaagatcgatttaatcatgcgttcggttggcggtgcgatggatgagccagaaaacct aatggagttgatattaggtatggcggatagcacattgtttaatgagttgtttacagaagcagccaatcgtaaaaactctgaatctc tctctgcttggtttgaccataaaacaaaaacattcggtggcgagtctgtagtgcaaaaagtgaaagacttgattggtagagcagaa aaatttgactatcaagatcttgaggctgtaccgcgtttagatcttggagatttaaaaccgttttttactcagatgctttcatttaa tcaaagacgttgtaagtatgatgaaaatggtggtttatcgtttttgacacctcacgcatggttggggcaatttggaaccagacgct cgtatgagaaattgcattttgaccgcaaagctaaacagcttgattcagaagctgacatcataggctttgggcatcccatgttttca aaagcggttaatcaaggagagcaaatccctggaagttacgcgtttcttaacggtatagagaaagatcttgtagtgtttaaggttca agatcaggttacgggaaccgatgcatcagtaaaagtgagtattgttggactggtgctcgatgataatggcgattgtgaattggtca aggacgaagaccttatcgggtatttaaacgagtatcttaaaatttccaatgatgttgactctaaacgtacaccagaggatttagtg tctgttattcaaactgctaatgattatctaatggagaatgtgtcatcaattggcttaccatttaggctgcctaattctgaaccatt aacggtattctacaaagcaagtaactaactattattctatagctgagcattacgaaaaagttcggtagtgattctggcttaatatt tgggccgaagctaagaggtcgtt (SEQ ID NO: 39) 43 pLG045 gtcatagtcccttacggagataattcattgaaattaatatcttatacagcacatgtaaatagccgtggtgtatttttatccaatga atcgttacaaaaataagatgcatgcccaccctgttctgtgtgaacgctacgaccagctacggatttataccaaaagtaggaattct atatgtcacgtattaccatcaacgttttatggttaaccgtaccaatagcgcggaagtgggcatgagcgaagtagcagatcaacagc aattggaaactcagccagcgggtgatgacctcctgcaaggtgtcaaacgcgttctcaggcatgccgttcaggcgtacggggatggg ttaaaggtttatcaaagcctgcaaaatctcaacgaggtgattggcacggagtacggtaatcgggtcatttatgagttgattcaaaa tgcgcatgatgcgcatacgtccgaagaacgtgggcggatagctgtcagcctggtgcttgaaaacctttcacggggaacgctctaca tcgctaatgatgggcgagggtttcgccatcaggatgttgaagcggtcaaaaacctggcgatcagctccaaagagattggcgaaggt attggcaataaggggcttggatttcgcagtatcgaggcgctgacgcaatccgtgaggatctattctcgctcaaatacgaacggcaa ggaccgatttgagggttactgtttccgtttcgcagatactgacgaaatcgcgcataatattcgcgatctcggtgttgatgacgcga tcagcaacgaagttgccaaaacgcttccccgctatcttgtgcctgttcctctagatgatcaaccggaggatgtccgcacttttgcc cgcaacggtttctccaccgttatcgtggcaccgttagaaactgaagcggcagttacgcttgccagaacgcaggtgaaggagctgac caatcgcgatgttccactgatgcttttcctcgatcgtattaccgaaatcagtatcgaaattttatccccggatgagaaagccgaaa agcgcaccatgcaacggcaggaaaaggcgctgggaagtattcctgacgcgcctgatgtcagtctctacgaagtcgatataggtcag cggaaacgctttttagtggccagaagcaatgtcgataaagcgcgcgtgcagcaagcggtgagcgatagcttattgactgcacctca gctaaagcgttggctgaactggcaagggataccggttgtttctgtcgccgttggcctgaacaaatcaacagtaacttctggaagac tctacaactttttgccaatgggcactgaggccgcttcaccgatttgcggctatatcgatgcaccattttttaccgatattgacagg cgtaacacgaacatgagtttgcagctgaaccggctgttaatggaagtggctgcggaaacctgtgccgctgctgctttgtccgtcgt atcccgtgagctggatataggtgcatctgcggtttttgatctgtttgcctggacgggggaacatcgtcgcatgatgcaaacagcac tggaacggaaagatacttcgctcagcaaagcccgcctgattccggtgatggctccgccaggaaaacagcaatggtcgagtcttgaa gaagtcagtatctggccggaggtgaaatttgccatcctgaagccgaaagacgttgccagatacagtggcgcgcagttggtttctag cgaattgaatacgccgcgcatagtgcgtttgagggagataacaaaatttccctatatgtatcagtcattagatccttcggcgcaga cactggtgaaatgggcagaagcctttgccctttcgctggtggaacggaaattctcccctgccagttggaccaaattctatgatgat ttggtcaccttgtttgctgcggtaaaagtgaaactcaacacacttgagaactgcctgatcctgtatgaccgccagggcaaactccg gcccgcaggcgggcataacagtaatgaacacaatggcgtttttgtacgtcggcatgtatccagaggcgacaaaaagaaagataagc gtaccgggattccgttgccgccagcgattgtttctcggcgctaccggtttctggatgaaaaaatcgtgcttagtgcggcgacgttc aatgcgtttaccgtcgccgacctgataagagagtacgatccgatcaaagccctgtcagggctgaatacggccctgagtaataaggc gacagtcagacagcgccaggatgcactattgtgggcatttgaggtctggcgcagcagtagtgtcgttgtcgatgtggagctgaaaa aagccgatctccatattcccgtgcagtcgggttggtgtgcggcaagcaaggctatgttttcatcctcctggacgccaacagggaag gttgtggaaagctatttaaccggcgcgatggggatctcgcctgactgccgtctggcagcgggtttgttattgattgagctgcaaga ctggccgggcgtcgtgcaaaacagcaaaaccgactggattaaattcctccgcgtgcttggcgttgcagatggattacagccggttg aatctaaggtaagagcgcgagcatatggcgatagttggaatagctttttacgcaatggcgacgagcatgaggggtttgatagcgac tggagggcagaagtaaagcgggcacatataagtttctaccatcctcagacggtctatacctcggaaggaaaaacatggcgattgcc cgggcaacttgagcacgcaacattgccagacgatctgagggagctgttgtgtacgctgattttcgcctttctgaagtcgcagacta cggagttttttacctttgaggtcggtcgttttgagcgacagaattcgcaaacagactcccgtacgctgccaacgccgcttggcact tttttacgcactaaagcttggcttgccagcactagctcactatctgaaggattgcattttagccgtccagatgcgtgctgggcttc gcgggagcggcgcaataaacctccgcgtttcctagaccatttgattgagcacaacgttgatattattgaagagagtcaactagcgg agcgcttgttttctgcgaaaattggcctacgtgattggaatcataccgggacggcgttggatcgcattaaagaactggtctacatt gttccgcagttgaacgctggcgataaggcggatttacagcgggaatatcaacgaagctggcgtgatatcctcgacagcgacgaagc tcttcccgacggattggacctgattgtttttcgccgtgggcagcatgaagtgctgcgcggcaacagcgatctgcctcctgcggtga ttgtcaccagtattgcacaaaaaattgaagcacaaatgcttgcttctgcaggctacgcaatactcggtattggcctggatgagacc gatacactcgtctcctgcctcggtgatacgggacgattttcaccccgtaagattaatgacggcggagtgcaactttacctcgatgg taagccgttttatcccgatgagagcgatccgttgcttatctccttcgacatgaactggttaccggaaatcctggttattggtctgg cgttactcggggaaaacttagagcggggcgttcacgccaccaaggttgataagcagctgcgcgcaatcagggtacgccgttgtaag accctctcttttgccgtgcagggcgatgatgccaccccaacggagtcgttcgtcagctattcctggccccatgaaacgatgccgac gctgattattgaagaggggctggtgtttaactggcagaccttagcgaagatttcccgcaacctctcacggctggtggataaccggt tacgtttcattgaaaccttacttttgcgcctcgcagttggtcgcgataatggctcgttgagtaaaccggatgacgttaccctggct tgggagatgaattgcgatgttcaaacgatccgtgatcattacgcccgactgcgcacggacatcactcatgtgatagacatgctact tcctgtggtgacgtatctcaacggtattgagcttgctcaggttctcaagcgggaatatgccttatctaggtcagtatttgatgtgc gtagttggatttcatcacatctatctgatagtgatatacctgctgaaaagctgctggacgtgtgtgaaacagcaaccgatcgggtt gaactccgtaaaatgctgtcgtttgattttcagcaatttaacctggctctggaagcgttaggggaaacaccgctgtccaatgagga tgctctgcgcagattttttacggcctttgtcgggcagaggcgttcacatattatcgatcggttacgccgacactatctggcgacct ttgataccggcggagatttgtcacaatacgttcagcataaatctttgggcttcatttccttcaactctgaatggattttgacacat gaaaccttggaaaaggagatggtggactcgcaggttgacacgcaacttttgagtgcgttaggaccggacaatggtgaagagctgtc tgcacttaatacgttattagacgcgaatcgtaaaaatgtgcgcgaatttgccatgcaggctcagccgcgagtttccgcctggtgca gacaaaatgatgtcccggtgaatgctcactggcagtacaacgatcctcaggcgttttgccgacagctcgaaaataagggctttctt gatttccggctctttgagccggattcactaccggattactgcctgcgcgccgggctatggccaccaacgatgccgcccagcctaga tcaggatgtgctgaatatcgacatgaggaaagtttcccaggaaaaagaacgcgctgagcaggcaaaacggcaacaggaacttgagc gtcgcagtatctttttttccgggcagtcgcttgatacagccagcccgctatttgccgatcaacttcgggaactggcgagtaccgat agtagttggcaggtgcgcagccagcacaagacgcaggccttgatggattttggcgtggtgacaatgcgtcaggcgagcggcggagg ttgcggaaaaagaaccgggcgtgcgtatcgggagcctcgattgacacctgcacagcagcaagccatggggctggcgagcgagtggc tggcttttcagtatctgcgcgatcgctttccggattatacggatgaaacttgctgggtatctggtaatcgggcttcgttttgcggg ggcgaggaaggagatgattcggccgggtatgatttcatagtgaagacgccgaaagtggaatggcttttcgaagtcaaatccaccct cgaagatggtcaggagtttgaactgactgccaatgaacttcgtgtggcaagtgcggcggctaaagacgcaagccgacgttaccgaa tcctctacgtcccttatgtgctttcgccggatagatggtgcgttatcgaattaccaaacccgatgggcgataaaacacgcaatcac ttcagcgttgtggggcatggatctttgcgtttgcgttttcagcggcaggagaactgacagcaaccctgctcagggaaacctgagcg gggtttttaaatatggcctctatggataggggacactttctgcagtaaatggataataagaaagctaacgttgaagtctgattctg ccattttccacgacagctaaatgctggatcttctttttaggatcccaacatacctagcagtaggacgtaagtatgcttgagttcat ctcgatatccttgtttctgaatgacaggcattactatttcgtgggtgtgaaccgatgaagggggtgatgtcattggaaaataatga ggtagtagcaaggagaagttctgctcttatcatagtgaaaaagcggtttgggaacaaatcggaactgata (SEQ ID NO: 40) 44 pLG046 cactcaataccacacaattctcaactccgaaggacttcgtgaaacgtgagtaagcgtcaactcagctccgtctggtttacctcgtc aggctctgtagtttaggtgttgccatggcgtataaccctgccaacagaataacttaccttactccagtcaataccgccttcgctgt acgcttacgcttttcgctcaaactgtgtgaaaacgtttttgatcgcataaattaccaaaacagggctgaaaaccgcgctcatacgt aaaattcggctcaactaaccagtcgaccaatttcagattttgcgtagacgcgcgcacttcagttttagtcagggttttcacacagc ctgcgctcatggctgctttaagctaaaacaaacagatagaaagaagttacgataccctgtgaattcttgcaggcagatatcaagga gggttcattggtagcgataaaaatgtatccggcaaaggatggggatgcttttcttattatttgcgatgaggaaaaaagtgcatttc tgattgacggaggctacgcggaaacgttcaggcaacatattttgcctgacttacgtgagctgagttttaacggttaccggttacgt ctggtcatggcaacacatattgattcagatcacattggtggtctcgtggacttctttcttgtaaatggacacgcagcagagcctgc agtgattactgttgaccgcgtatggcacaacagcctcagggcgatgacgagacccgaaaataatgcacaaaaagtggattcccgag aaatcactgactttttgagacggagatatcatgtcgaagccgataaagccaaaccgcatgaaatcagcgcgcgtcaggggagttca ctggctgccagccttctggctggcgattatcattggaatgagggaaaagggtatcagtgtatctgcaccggtacctccattcccaa cttgatgtgcgataacagtctaacaattctgagcccctctaaggagagaatttcagcgctctgcctgtggtggcgcagacaacttg catcgctgggcttttcgggacggtcctcctcgagtgaggcatttgatgatgctttcgaatttttttgtaaaagggaagcatctcag gttcctcttccgcatgtcatcaatgcaagaacaccgttgcttgagagggattatgcacgggatacctcgccaacaaatggcagttc gatagcgttcagtctggtgctcaataagaagagaatattgatgctaggagatgcctgggcggaagaagttgtgacatctctgggtg ccagtggggcgtcccatcattttgatatcattaaaatctcacatcacggtagtattagaaacacaagcccgaatcttttaaagatc atagatgctcctgtgtacctgatctcaaccgacggaaaaaagcatgccagacaccctaacctggcggttctgaaagcgattgtgga cagacctgcggcgtttacgcgaacgctctattttaactatgccaacagcgcatctgcttttatgaaaaattacctttctgcaagtg gtgcacaattcagaatcattgaaggatcaacggattggataacactgtgagatatgctgctactgaaactgaaataaggaacgcaa ctgtactcattgaatgcgcgggttacactggttccggaaccctgatcgcagcagacaaggtccttacggctgcacattgtgtagta tcggatgatcctgagacaccaattacagtgacattttttggtgcggatgaagacgtctgtgtcaatgcgacaatttcagaaataga tacatcgtgcgatgcctgtctgctaacactttctgactctgtcgacattccgcctattacacttatgacacagccggagcgagagg gaagccaatggaaagcctttggctatccggcatcacgcaatgggccatcacattatcttcatggcactataagtcagattttacca aggcttttccatggcgttgatatggatttgtcggtcagtgccgattgtgttctggaagagtacagtggagtttctggtgccgccat tctatcagaaaataaatgcattgcgatggtgcgcatcaggatggatggtggactaggtgcagtaagtcttgataagttaagcggtt tgctgattcgaaacggcctcatcccagatgacattgcatccctgccagattcatcactgtcgggtgaagttgtcctgaaccgcaca gaatttcgcgacaactttgaatcgttcgtcctggagcacaagggacgtgcagtgcttttggaaggtagtcccggctctggtaagac taccttctgccgccattatcagccccgtagtgagcaactcgcagtggcgggtgtctatgaatttacaccggaagacggtgctggta cgacattcaaaattcttcctgaggtatttgccgattggctgcataaccaggtttctatactgctttcaggtaggcctgctcgcagg gaggaaacagaaaagatcaatctgacccaaaaggtgtctgaccttctacatactttctcagattactggaagcacaaaggaaaata tggcgtcattttcattgatgctgtgaatgaggcaagcgagtgcggggatgaggcagtatcgcgctttacagcattactgccggtga cacttccggagaacgtcaaacttgttttcaccgcaccatcattatcatcagctggtaaggctttccggcactggctcacacctcag gattgtatcagcctaacgcttttaagccatagggaggtgttacagctaacagctcgagagcttaaaacttccgccccttctttgtc actactcacacgagttagtgatatagctcagggccatccactttatctccgatacattcttgggtatctgaaagcgaatccggatc aggttaatctggagatattcccggttttcagtggcagcattgaaacctactacgaaaggctctggcaggggctggttaaggatgag agcgctgtaaatctgctcggtattctctcgcggatgcgctggggcattgatatttcatcactgatccctgttctaacaccgcagga acagacggtgtttgttccaacccttgaccgtattcagcatctgcttcttaatgataaatcatcagcattgtgccaccaatcatttg cggcgtttatcaacagtaaaacggcggtaattaactcgctgctgcacggacgccttgccgacttctgccttaccagtggagagagt tatggcctgattaatcgcgcttatcacctgctcctagcctctcacgacagacatcctgaagccgcattggtgtgcacgcaggaatg ggctgacgcctgtatcgtcaagggggctcagccggatattctaattcacgatatccgtcagaccctgaagaacacgcttattcgtg ccgatgcagtggcatcgattcgtctgttgctgcttttccaacgcatgaccttcagacaccattttttgtttctgcagtcagcttat cactcaggccttgccctggctgcacttggcagaccggatgaggcccttgagcagctcataccatctggaagcctcgttgttgatgc agttgatgcaattgtcagcgcacagactctcgcgcgtatgggaaacagtgaacacgcgctgaagctattggaaaaggtgaagtcag ctgtcgaccaagaatttgaacgcaatcccgtcaatctatctgattttatcggcctttccctggcttgggtgagagctgagctgatg gctggggtggttgatggccacggacgcacacgcgaggttgttgagtatttgtacggttgtgggcaagtcgttcgcgataattttga acaatcagcgcatagtaaatcagcatatacacgcgctttttatcctcttcaggcagaaatggaagccgtgaacatagcctttaatg accgctccgtatctttacggacggttaaagaaaagtttggtagcttaccggaaaatattcttgatctgatgctcagttcagttatg cgggcacatgacatcattctgcaacatcagttgccgatgccccagcatgctttgcaacccgtttggtacaatctggacagattact tcatactgatattccgtattcgaacgaaattcgttttaattcattaagtagccttatttttttcaatgcgccttctgctcttatta tcaggatggcgggggtattttctttcgaagtagtacccgaaataacgttgctcaatgaagaaaatgagatagcagcagacagcatt gacgttagtgaacagggacaactctggctggtgagcgcctaccttaatgaaacgcaaccctgtcccgatattaaacatccgagtca gggatgttctgaatggctcaagacattgactgaggctattttttggtacagcgggcaggcgcgccgggcagttattgacggcaacg atgagaaaaaagaactgcttttagtcaaggtgcagaatgatattctccctgctctttcgtactcgctggaagagcgcatggcatgg ccgaattcatgggcaatgcctgaacagattatccccatgatttacgaagagttagtaaacatgttcggcgcatgctggcccgataa gatatcagtgatcactgatttcattctggctcatacgcctcagcaatgtggactttattccgaggggtacaggcgtttactgaaca gagttattcagactcttctaaatgagcatcggtttttggggcaatctgatacgacatttcaactacttgagacgttgcatgcgttt gtttctgcttttactgagaatcggcaggagctggttcctgaattactgaatattattccagcttatattagccttgatgctcctca gctggcacaggacacttacactgagcttttaggtgtgtcgatgggccctgactggtacaaagaagaccaatttgccctcatgacaa ctatgctgcgcgtgataccacagcatacagacacaaatactacactttcacaagttgcaggattccttgaacatgcttcgggtgaa atgacatttaggcgttatgttaggcaggaaaaatcacagtttattggcgaacttattcgtcgtgggaattatgcacacgggtttaa ctattatcgtcagcagtcctgcggatcccatgaggaaatgctcacccaacttagccacccagctgcagatagccctcatccattga aaggcatgcggttcccggggggagcgctggatgaggaacatgctgtagaatgcattgtcagtgaactgcgaaacagagtcgactgg cggcttcgctggggacttcttgaaatattcagctttggcagtattggtaatcttgcagtgccctttgctgaacttatcaatgaatt ttctgcagacactgaagaccttaatgaaatacccaaaaggttgcacaacattttacatggtgatgtgcctttctcagaacacagaa attttatcaaaaatttcacagagcaccttgcagacaaccataagccactctttgctgaatttatcagtttgctatccgaagacact agcgataacgacgttaagcctcccccctctggtgatgctaaccagaagggtactgatacctcagatgatgtggcaatgcagccagg actttttgggaagcgttctgcgatcaatagggctgaagcctgcatggaaaatgcccgaaaagccgcagcacgcagaaacacagttc gtgcaagtgagttagccgttgaaagcctgcatataattcaggatggtgactggtcagtctggagaaagaacaaccatctggcggaa cttacacggacgtacatattggacaactctgcggatgcaggttcggtcattcgtgcttatgcttcgcttgtagaaaaagaacgtta tgccccggcatgggtaattgctagtcatctcatcgaaatagcagccagtaaattctctgatcaagaagcccaagctattaaccaga tcgtacttgaacacaaccgccacatgcttgggaataccgaagcggatgctgcgcatttttcttttcttaatgaacctgatacctca gatgcaggtgaagaaacactctattttctgttttggctgctggaacacccactgaaattcagacgcgaacgggctctggaagtact gaagtggcttgcatcagacgatgataagattctgggccaatgcgtgacggaggcactcgtttcagacattgcctcacgagctgaag cactaatggcattgacagactgggtgtcagctagatctcctcagcgaatatgggactttatagttaaagagcgcagcctttttgaa tggcttgaaggcactactgcactaagccaagtccatctcctggagcgagtaaccagcagagcgggatttgttttaagaaatgagat tgccgcatttgagcgaccccgaaagcttttactgacatcagaagcctctggacaacggaatattccagaaaatttaccaacatggg tgcaatccttgtcgcagacccttgccgtgatggaaaagcagggaatagatatcccagctttgcttaccttactcgaaaaacgggtt ttacagcagagtggattggctgatatcacggtggcttttgagctggaaaagttacttgcgcgtggttttactgtgaatagaacacca agtcaccatcgctgggagacgatggtgcgatttgcattaaaccagatcatacatgaggcggccgcacaggatgaactgcaaaacatt gaacccttgctacgtgcctggaaccccgcgtcagaggagtgtgttgagccgtgggaggtttgtaaccgggcaaaacagattatctgc gctgttatggaaggtagacatcagcaagcttcgggcatagaggatggctttttcttgcattatcttgatgaagtggaggtttcccga gaaggtcaaacgcatctggtggaaatctcagcggtgttaacgacagctcataatggtcatgagagccttagaccaggtgcagaaagc gaatttaatgcaacacagacacctgatatagagcggacgcttagtgtgcaccttacatgccagcgagtcaaaatgcagcctttgct ttttgggggagctacgcctgccgcagtgtcgaaaaagtttatgcagatgactggaacgttgccttcagactttattcgcaggcaat ggcgaagcgggcgttctcttagtaaaaacagatggggggaaccaataagcagaggaagtctgttactcatgaaaagaacaactacc ctccctccaggactgggcttagcgtggtatgtcactgtcgatgggaagttgatgaatatattttcatatgccccgaggaggagata atgaaatacagttcaatggaaacgccaaaaacgcgagaggaatttgaggctcgctgttttcacctgctcaatgcgatcaagttagg acggtatcatggcattccgggtgaaggtaacaaagagcaggttccttttctccctaacggacgagttgatctggcaaacattgata ccatgactcgcctctcgatgaactcgttatatgatttccactataacagggataattatccgcagtttgatctctctgaaaatgac gagaatgaagaggctacggattgagctggccgatagaataatgtgcttggatcttagaggggcttccaaagaattagaacgctaag gttgccaaagttgtgtacgaaaaatgattgatttggttgaacgctaaaaagaaagtgagtagcggtttgaagccaggctttcgagc ttatataaacattctgc (SEQ ID NO: 41) 45 pLG047 caggaagaagcattctattgacgctactatgttattagtgggcgtttgcgacagaatcaatggatagaattcacgggcgatgtagc attttagacatctaagaagcactttagtcgataatctttcacctgttcgtctgtcaacatagatgcttgtgcgtggagtagtacgc atacggccgagggctattgaccatagtgcattgtttgcttaacgttagtgcgtaggaaagaaataatctgggaaaagaattgaaaa agatagaaaatattgcaacgtcgtgttaaaggcccgttttactggtacagggaaacaggcgctaggtgctggatgataatgacagg aaatgacgatgctgaatataaggatgtatcctgcccggaatggtgatgcgtttttgctttgtgcagatagagccacattgcttatt gatggcgggtatagttcaacgtttaacaactatattgtcgacgatctacggaaactggcttcagaggggcaagcccttgatctggt gattaatacgcatattgatgccgatcatattggcggcatccttcgctttctatctattaacggcgcagcggcacgtcctgaaatta tccagattaaacgcatctggcataacagtttacgcagtctgacggccccgcagactgagccggttgagcttaataatgaaattat tttaaacacccttactcaacgcggttatttgacccccaatgaagaggggcagggcgccaaggctatcagtgcccggcagggcaata cgctcgcctctctcattcatgacgggcaatatgactggaatgaaggcgacggattacgccgtatctcagttgagtctatgcctgga atcaacttgcctggcgggcgcgttactgtactgacaccatcgaatacggcgctggatgcactactggtgttttggcaaaagagcct gaggcgctttggatttaagggtgaggtgggggctgatacgctggctgaagatgcctttgaatgcggtgtgtcacacctgcaggagg ccgtcgggaaaccaccttcgctaatttcagcaggtcgtcccaggcagcttgaagaagtttaccgacctgacacctctgtgacgaat gccagttccattgcgacgcttgttgaacttgatggttgtcgcattttaatgctggccgattcccctgcagaagacatcgttcatca gttgaaaattttgcaagctgagggctgttccctgctatttgatgcaatcaagatctcccatcatggcagttgcagtaatacaaatc ctgaactgctggggcttgttgatgcaccggtgtattttatttcatccgacggcagtcgacaccagcatccagatgtggaggtgttg acggccatcgttgacaggcctgccgctttttcccgcaccctttactttaactaccgaaccccgtcttcagactacttacaacatta tacgacgattactggggcaccttttaccgtagaagcaggcacgtcctgctggattgagattggaaaacgccaatgatgctggatgc ggaagtcaggcttgccacctgtaggattgcttgcgggaaagatacaggaaccggctggttgatatcacaggataaagtgctgacgg cgcgacactgcgttgagaatgccctttttaatcaagcgcccgtgtctctgacatttaggcaggcagacacacaggtggaactgaag gccacagtcctggatgaagatgaaaacacggacgtctgtttgctgttgcttgatgcaccgcaggatctgacccctgtacgattgag tgaaactcgcccgttgccggggagctccttttatgcctatggatggcctcagagtaaactgggcatcgggcatcgcgtggagggaa cgatcgcgcagatcctcgccgagccgctgctcggaatggatatagaaatagccatagagcagaatgcggtacttccccgctatgaa gggctatctggtgcggcacttatcaccggggggaactgtacggggattttgcgggtttccattgagaatacggtgggcgtcatttc agttgcagagatggcagcgtttctgcggcgtaacaacctgcttccggcacccgttacaccgacggagagttatgagaacaccagtg aggcgcagcgggttgaattccggcacagttttgagcgcgttattaccttaaaacgcgggggatatctatttctggagggcgcgcac ggtataggcaaatcgacgttttgtgcaaagtttacgcctaaagacccgacgattgagcattttgggacctatagctttaacacagg ccgtgacggcgtgaatgcagttcagcaggctcaacctgagaccttcgttaactggttaagtatgcaggtttccctattcctgacgc gggaacccgggcggcttatcaaaggggactactccgtactcatcaatgaagccggacaactgctgacgcgcctaggtgaagagtat gcccgccgcaacaagacaggggtgctcttcatcgatggacttgatgaggttgataagtacgatgaggccctgcttaatcggtttac agccctgttacccctgcagctcagtgaaggcttggtagtgatcttttctgccccgggctatacccgttattcagcacaactgggtg tcagggtatcgcctgcggactgctgcacactgccagctctgactcaggcatcagcgcgggaatactgcagacagtcgctcaaagaa gtaccatcgcaggggatgatcagggttatctgcgatcttgcgcaggggcatcctctgtatcttcgctatctgatcgatctggccaa tgcgggaaaagcagaggaagagcttgctcagttaccgctcattgacggacgtatccgaaattattatgaaatgctgtgggttagcc tgcaaaacaacccgctagtggttaatcttctggcgattatcgtgcgtttacgctggggaatttcacatgcgcagctcaccgaactg ctcagtcttgaagagctgagcgtcctagtcagcacacttgaacgcatcagccaccttctgatgacccctggtgagacaaccattta tcacgcctcatttgctgattttctggcagaaaaaactgtcctacgtgaagcagatattcagcagcggctgtctgcctactgtgaaa gtcaccctgacactaggtatggccttctgaatcttatgtatcacagcctgcgctgcgacccgacccggcagatgtgggcaatcagc cgctgcgatcagcactgggctgaccgctgtgttaccgagggggttaatccggcgttacttcttggcgatgttcgggaaacgctgaa tgccgcattggcaagcggcagtctgacggataccgtacgccttcttctgttatcccaccggctgagctttcgctacaacacccttt ttgcgcaatctgctttactcacagccagggcattgatccggattggccatcctcaggaagcgttgcaacacgttattcgtttcggg cggctcagtctaccagtgacgcaagccctgcaggtggcgtttgacctgattcgtgcggataacgacagcgatgctcttgcgcttct cagtctggcagatgactgggtggaggagcagctggcagaggtaaaaaccggtctttcttatccggaatttttacagctttatgata tgcgtatgaatatctactttctcaaagggctggccggagacaggcgtgcggaaggagatttaaagcaatttcagctttactggatg aacgtgattgagcaagtctgtgacgatgaggggacggtcagggggcttcgcggtcagatgtgtgcctcgttctttgcaggcatgct gtttttccatggacgttatatttcgcttgcgaaactgagtgagaatttcacggggcccctgcaggaggtcacgcaatcgttcgtga taacgttcatgtattaccattttctctgtgaggagtttcaggtcagtattgatccggagctgctggaccagctctttaaagacctg acaacgctgagctgtctggaacatgaatctcctgtgtacgtagatccccggacacttgatgctatgatctcgtctggtgcccctgc gcaaatgataagaaattttcagggggatacatcagtaccactgcaaccggtacgtttcattggtgatgataatgtgtcagcgaatg atgtgtcgttcctggaggagatggctaaacataaaattcaggcattttgcgatccatcgtatgactgtccggcgcccgttgcgctg acagcaactggctggatcgtaggcatggaggaattgtgtaggatggtggcatggtgtgagggggcggcaggacgttttcatttaga gggagatgaagcagcccttgagtcggtgtggactgtcattgaaaagcaggtactgagcagcctgacatttccattatcagaccgtg tggcatggcatgatgcctatgctcttcctgaagctattgtaccacagctttatgaacggctggcactcctgatatcgtctgttttc ccttcccgactggacgcgcttttggcctttattgagcagcatttcccccgtcaatttgggctgtattcggaagggttccgagccac gttactaaagattctaacactcctgagccaggtggtggatgacggtggaattcagaaccgcctttatgatctggccttccgttggt atgagtttgtgctgggcaatctgcagaatcgccatgaacttgtgccagagttgttgcacctggtttcattatttgtccggctggat gcgggtgaaagtgcacggcaggcttaccagcaggtgctggcattctcaatgggccccgactggtataaagaggatcagtttggtct gatgataacagcgctcaagtcaatgagcgaggcggacgcgatccctcagcgtttgctcgcccgtattgcctgtctgctggatatgg ctggcggtgagatgacctttcagcgttacgtgcgatatgcgcgccgtgatttcactgcggcgttgtgccagcacggtaatttctcc caggcagccgcgtattttatgtgtcaaacatacggtacaacagctcagctttatgctgaagctacgcatggcgacatcgatcgtgt gtcattactgaaaggaacgcgtttccccgggggcgcactagatgaacaggatgtgatcctgaacattgtgcgtttcgctgtcccga tgtgtgactgggcgttatgctgggcattgcttgagacctaccattttggcgatgcgcgtcatcttgataattatgcagatgcctat gctcaaatgatgatcaacatgcaggactgtcaggatgcaatggcgatgatcgcacaacggctcacgcttatttttgaagctgaact gatgcctgggaaccggcacctgtttatgaaatacctgcgaagcgcacttcctgaggctctcagggataaaactgattttctgaacg tttacctttcagataacaacagcgccccagcacagcagagcgagccatttgaagacgtcgcagaaacgcagcatgcaccgcctaat gtttttgcaagggcatcgcttgcgcttgatgaggctgaaagtcaattgcacagacgtaacacgtcacaggcgcagcacaaggcaat caatgcacttgagatgtttcagcaggagggatggtcggtatggagcgacttatcagaggagcatagacgtgcaggctccatactgc tgaaaagcacggattcggtgtcggaggttgtgacgctgagtagggcgttaatttctgcagagcagcatacggagagctggcgtatc gctgacaagctgattgaatggttgtctcctgcagcggatgagagtgtacaggctgagctggctgagcattcgctatcacacatgga gatactaaccggcatgcctgttgccgtcatcgaacggtatgattttcttaacaggaaagaggatcagcatccgtcttctgcgctta cccgtctgcttctgcatgctgttgatcatcctgtctggatgcgcagtgagaaagctgcggatatgttgctgtggctgctgcagcat catccccattacgtatccgacgttgggcctctggcattttcaatggtttcactgaaccatccggatgtgctgtgcgggatactcga taagctttctcaggatgatcctgggtctttatggactttgctgtcagcacatctggatgtggcagagacaaaaaaatcctgctgtc atgctggccggctcgccacattagggcgaattgcgagacgggctgcatccttggggaacgcgagtgctgctgaggcgctagcgtta ttgcatgacggggaagtacgccagcccttgcaggaaaaaatcgcacagcagagtccagcgtgtccaaaatgggctgagataattgc ttttcagtggcgacagttagcggatgccgggctggttgacggcagcctgtcagagagggcatttgctgtgctgtgtgaggcgtgtc atcccttcgggtgggaaacagtagaggctcttgaagaacttttggcgacgggcatgagcggaagcacggcctggaacggccgatgg gaggcaaaacttcgctttgccttacaggtagcacttatgtccgttctggacgatgcacagtgccttcaggctgaggctattttccg tatctgtaatcctgagccgactgacacattcagaattacgcatttttcatcgcctggtaagcaatggctcaaccagttgatgcagg ggaaggttaaattttcacctattgctgacagccagctctatctcgatttttacgagaggcggaatattaacggcgtactcgttctg ttgaggctgacggcttatttctaccgtgacggggtagatgctccctgcttatccggacgttttcctgcaaccgctcttgccacatc tgtgcgggcaggccaactggacacatgcgtgaatgttcaagcgacgcctgcatattttggcagtttcacgccagcaattccttctc aagggctaataacgctcactagggctctttcgcatcattttaaacgagctagttggcgaaaggggcgggatgttgagagtcagggg ggcgcgcctctggaagaagggtgttatttatccattaaacgggacgcgttcagactcccgccgggaataagggttgtatgggtttg tgaattcaacaacgaaccgattgcgcttatgaacgccgctggcgcactgaagattcactaggaagaatatgaatataccgttaacg cgaagtgaattcgagcaccgacttcatctgcttgagaatcattcaaaaacgggtcggctcatgctggcagagggggtatccggtga gagtttgcttaaagtcaggcgactgccaaacggccggattgattttctctccgtggatgaaactgcccgtcttcaggcgaatatga tggagtggatgaagtcgattcccctgccgaacataccgaacgatgagggcactccctaaacttaagtatcgagttaatcctagtag aaggggatgtgaaaagatacctttgaaaggtgcgaggtcaatggaacaactttcagagatttatctcttatctgaatgttcatcac ggagctgcgttgtagtggccccgaaaaaactcactatagagaacggtctaggagaagactgtaaaagcatttgcttgcgttaattcg (SEQ ID NO: 42)  46 pLG048 gaaatttcgcgacagagatccttaacggtgcgtcgagcttcgacggaattcagaataatgatggtctggtgttcggtgaatcgtgc tttgcgcatggcgatctcctatcagaacaaaaccagtatgccggatgatctctaaaagtgaatggaccgatatgcagggatgctta cagtgggtcttcgacctttataagcatagtaaagaatagaatatgccaatgtacgataatctgtgcactctattacctgcgcaaaa aagtacaccagaattgtttgtctggtttggcaaattgagatcattaggcggcatagcgaatgactttaaatgaaaagcccgattca tcaataaagattgttaaaacaaaaaccttgcccccagcagagggcgagcgccgggcaatgcgtggctatatgggccaatatgaaag agccggtgcagccatttatgctgaattagagcgtgggcaattggagtggataggcgtagcggaccgcagtgcgggtatcgttgatg atttagtacttggatttaatggccttatcgttgggcaccagttcaaaacgtcccgtttccctggtacatttacagtacagacactc ttagtagggtctgatggtctgcttaagccattagtttgcgcctggcaaaatctttgtagtgctaacccaacgtctcaggtagaaat tcgtttagttgtcaacgattatccatcagttaacgacgctcccggaatggaagctccagctcatagcgctgccttccttgatgagt ttgaacattatcccaaacgcacgcttgaggaatggcgctacagtaactggggccgtttagtcgaaatattatttcaacattcctgc ctaggtgacgatgatttcgagagattttttcatgcgttgcgcataattcatggttctgcagcagattttatacaattccataaact cagtgcagaacaagcgagactggcgtctgatatagcaaaaatattacctcgactggtctccgataaacgagatagggatcgatggt cctgtgaagaactattatatgaactagggtggaaagatcccaccaaaacacgccacttacatcgttttcccatcggtgctcacgtc caacgcaaccgcgatacggaactacaacttctccagacgatacgcaacacaatccagggctatgtggcattgattgggcctccagg ttcggggaaatcgaccttgctacagacaaccctagctaccgagtataacactcgggtcgtgcgctatctggctttcataccgggcg ctgcgcaaggtgtagggcgcggggaagctgatgatttcttcgaagacatttctgcccagttacgcagcagcgggctgcctggactt cgccttcgagacagcagccaatttgaaaggcgcgaacaattcggtgaactgctcaaacaagctggcgagcgttatcaacgtgatac agtaagaaccatcattattgttgatgggctggatcatatcccccgcgaagaactaccagcccattcgctgttaggggaattgccgc tgcctgcagccatccctttgggcgtgacatttatacttggcacccagcgactggaactcaggcatctcaaacccgcagtacaggaa caggctgggcatccggatcgtctcgtaacaatgcatccacttgagagagtggcggtcgccaggatggcagacgttttaggtcttga ttcaaccatttcgcgtgtaaaactttatgaacttagccgcggtcatccgctggcggccaattatctcattaaggcactgttatcgg ctgatgaacaggacatatcatgcatcctcgccggagggatggaatttaatggcgatattgaatcagtttacgcatctgcctggaga gaaatcgcaaacgaccctgatgttatgcatgtactgggtttcattgcccgtgtcgaagctccgatgccgctgaaattgctggcaac aatcgtagatgctcaggcgatagagcgtaccttaaagaccgtccggcatttactcaaggaaacctcaaaggggtggactgtattcc ataacagcttccgtctatttgtgctctccaaaccaaagataacactgggcagtatagatgaaacctattcacaacatatttatcgt gaattagctaaactatctcgtcatgcaccagaacattcattacagtcctggctaacactgcgctatctcgcccggtcaggagagcg tgatgaacttctggcactcgcaactccagcatattttcgacaccagtttgcacatggacgttcctgttcagagattgatgcggaca ttcacttggctctgattgctgcgcgttccacgtatgatggtgtaattgccacacggttattactttgccgtgatgagatatccaga cgaactcaagcactggagtatgccaatgaacttccgcgcgcgatgttaaaagttggcgatattgatgcggcgatctctttcgtcca ggactttcccaatgcgggctatgaagttgttgaccttcttttggaacagggtgattttgaccgcgcgaaagaactgtttgagcacc ttgagccattatctcaattgcatacccccagattcgagcactatggggattcgcataatctacaagaattcaaaaaatgggcaaaa cgagttgttcacttccgcgacgctgagcaaattaagcaggcaatagactatttgaccgttgaggggtttaaacacgccacaagtgt atcaaccgatgaaaatatttcctctattcgcgaacagttaaagtggacagtggtcgaggcaattgttaactggcaatcagacgtta atattcaggatacctgcaatcagtatggcattcatgtgcaagagataccggttttgatgactcaggctggatttattgctagagac agaggaaataacaccttagcatcggaattatttaagactgccatggcattgtctgattttaatgatgtttctaatggggggcgaag atcgattgcattattttatgccacatcaggctgcaccgatctggcttcaaaattattcgaaaacctttttgcgcctgcaatttcga tgggagacaatgaattagaatcaacaaaagcactgacgcttgcagccatggaacatgcgcaactttgcgttttgctcggcaaatcc ttgcccgacgtagtcacctcaacacacgctatcttacgaccgctgcagacacatgcttcagaaacgggacgcttgttggggctgtc cataataaatgcctcatgtattccttctggaaatattaaaatggtctgtcgcatggtgatgagatatgtaatgcaactcaatagct attctggaaacgatacctatcaggctcaattggcattgacagctacatcaccactgatttgtacattaattaaaatttctgcgctg tgtggtaaggttgaatattattcagtaataaatgaaattgataatgcaatgcctgctttaatattaaaaggcaatacactactccg gcgtgaaatagcattggcaatgtatcaggctgacggtgaccgtgaaagggcggccgccagatttgagcctatggtaaacgagttgg tagaaaatacacctagcgagcaactcgagactctgtcagttctggcaaacagctttgctgcaattggcgatgttgaccgggcacta aacttacttgcttcgatacatgaccactgtttaggctacgctctggcagcgcgtaaggaccctttatactctgtttggaaagacat attgattttggccaatgcggcagacccagaacaccgtgctcaacgaataggtcagttgatacgacaggttgatggtatgaaggaaa ccgagggagcatctgccgcatatcgtttgacagaagtgttaatcaatgaagcaatgcgtatgaatgcgcacagtggttataccgtg gcacagaaactcagcaactgggggctgattccatggccaaatcaggtaaatgaactggtaattggtatgctagatcgccgtcctga aatggtgtttctctgtacacaaatttggtgcgggctatgccttccattctacattgaaccctattatcgtgaccctacacatgtag gcaattatattgacgttgctgcaaatgcagcggggccttcatcaattgccaaactggtatcaattctattaccggcaatccaggtt catagtcgagctcacgagcgactcacgctaataaatcgcctgagcaaggcggcattaagacacggttataccgataaccaacttga taatgccattactcgatggacttcagaggcccccgaagcccgccgctcctacacgccacaaacgtacgacgaagcttcaacccttg acgaacttcaacaggcatttgaatcaaatgattccgaacctgagtatcatgcgccttatcgtttttgtgagcttgcagagtccgcc gcattagacaaggtggtgaaaatgtatgagtgctggcattgcctgcagtcggatgcacgttgtcgttttttggttgcagagcggct agttaatgcgggggacacgacgttagccagaaaattagttgatgattacgataccagtagtgaccgggagatgtcatggagccaat ggttaggaggaaatcgattccgtctcttccacgcgcgtaagctactcgatggagcagcaattcatcatgaagcatatgaagacttc atcagttcaattgtggctgggaaagagagcaccatgtcgttgctaacagatatggcagacattcttcctgtgatctgtgagtcgcc agactggcccgccgtctggtctatcctggcagagcagatgtctttcactcgcgaacaccgtattggtgaacttttcgaatttggaa atgaaaatatgaccgacgaagagttacttgcggaattgctccatttttcattacgattgcctatcaccgaagctcgacgacacgca gagaaaactgcactaattctggcggtacattcaacaggagggcaaatcgtatttgagaacaccataacacgactcctgaacggcac ccttgatgaaccattccaggcattgcaaattttgcttttgctaaaacagaaccactttgctgctaaatttggtgatttagtctctg gccttacgaatcatcgtgatgtagctgttgctgaagctgcgtgcttgttagcacaatattggcagctacctgtatcgattgatttt catccgttgccgttgacctatcgattggcactcgacggagaccctgatcatgaaaatgctctgttagatcctgtgagtggggcaat gcgtattgaagtcgacttaggatggacacaaatgcttcgtcccgttgcacggagacttgcagagtttgctgattgtgacgaaatga acatacgccagcgtgccgcaacgtttattcagcaatggggagggctggcagcctttggccctggagcaacaaaaaaaatcgaatct cagttacgcacactctcaatgcaaatcacctatcttaagccccatgcttacattggcatactggcacttcgtcatgtcgctggaga gctgagcttggcaggcttgctctcgccaagggataaaccatcgctactggaacaaatggatgcagtacttccgccaactcctcgcc ctgaaatgcaaatccggccaactggcattaggcgaccgcttaaagtcaaggatgccccgtggagtgaagctgaagaaatgtggaca aatttggttgacgaggatgttaaaccctggataggtcgtgccgacgaattcgtaatagccgaggtttcacaattcaaaatgcatga tacccggcgtgctgaatatcaggtctatcgtattagcgcacctcaaattcatatttctgatgccaaattcatggcatggtatcaaa gtttgcccgctgtcgtttggctgggaaaaatgatcccacttgacgaagacctcgcaccgacaatagtcaggcgtgtagtaagctcc atcgggacaatgtcttcgccgggatatgccattgcattatgtcctaatatccagatgcatctgggatggcatgaatgctgcgagat gcctaatatttataccgaccagaactcaacaatcgtagcaagattagtgaactggcgagacgccgggccagtggatattgatgatg attatatatggggggaaggttgctatctgacgctttccaatgcaggcctgatacaagtcaagactctgttcggcgaattcaccgtg cgtaatttcgcaagcagggctgttcggcaattgcgacaaggcgaagcgcaaatgataaagacagctcagaatcagttcccgatact gtagcgagacgatttcacaacacggttcgattacctgacttctccaaccatggtctgaagaagtcagggagtgtagatcatgccgg cattctgtttctgaatggcgcaggatttcgggtcagggtcaccacaacaggcttgtccttttct (SEQ ID NO: 43) 47 pLG049 acaattttttgccataagacgctttcctgaaactcttctcattctcagcaggaaagcgttctcttctcaatactctctggttatag agtattaaaaaataaggagttataatccttgtagcccaactgacataaggacgatgctcaatgtctgacagcctgcttgttcgcac cagtagagatggcgatcagtttcattatctttgggcggctcgccgcgcccttcgactactggaacctcagtcaactcttgttgccc tgaccattgaaggggcatcaacgacggaaatgggctctcagccagtggttgaggatggggaggagctgattgatattgctgaatat tacggcagtaacgagctcgcaacagcaacaactgttcgttatatgcagctaaagcattcaacaatgcactcagatactccatttcc ccctagtgggttacaaaaaaccatcgaaggttttgcaacccgttataaggcacttatacaaaaaataccggtagaaacgttacgca ctaaactcgagttctggtttgtgacgaaccgtccagtcagtagcagcttcagtgaagcgatcaatgatgccgcgaaccaacacgtt acacgccatccacatgatctggcgaaacttgagaaatttaccgggcttcaaggcgctgagttatcgatattctgccagcttttaca tatagaaggtcagcaggacgatttatggagtcagcggaatatcctgctaagagaatcagcgggatatctccccgacctggatactg aagcccctctgaaattaaaagagctggttaacagaaaagcgttaaccgaaagcgccgcaaatccttccattaccagaatggatgtg ttgcgtgctttgggggtggatgaaacagatctttttcctgcgccctgtcgtattgaaagaatagaaaattccgtctcaagaactca agaggcgacgctggttcaacgtgttgttgaagcattcggcgcacctgtgatcatccatgccgatgccggtgtggggaaatcaattt tctctactcatatagaggagcatcttcccactggttctgttagcatcttatatgactgtttcggactgggtcagtaccgtaacgcg tcttcctaccgccaccaccatcgtacagcattggttcagatggctaatgaaatggcatctcgtggtctctgtcatccattgatccc aaatgctggtactggcatatcccagtatatgcgtgcgtttctgcatcgcctttctcagagcatttcaatactccgggcctctgagc ccttggccgtattgtgtattattattgatgctgcggacaatgcacagatggcggcggaagaaatcggtgaaacgcgttcttttatc aaagatttaattagagaaaagcttcctgatggagtctgccttgttgcactttgccgaccttatagacgggaattacttgatccacc tcctgaagcactcacattatccctacaaacttttaatcgcgatgagacagccgctcatcttcaccaaaaatttccagatgccagcg aaagtgatgttgacgagttccatcgtctaagctcttgcaacccccgggttcaggctctgtcattatcacaaaatcttccactgaac gacacattgagacttttggggccaaatcccaaaacggtagaagatactattggtgaagtgctggaaaaatccattgctcgcttacg tgatacagccggaatatctgaacgtgctcaaattgatacgatttgttccgcactggcaatattgcgtccattaattccattatctg tgctatctgccatttccggagtagctggttctgctattaaaagtttcgcacttgatctgggacgcccgttaatcgttagtggcgag actattcagttctttgatgaaccggccgaaacatggtttcagaggcgctttaggccatcggccgctgatctgcatcagtttattac taaactgagaccactaacaaaagatagttcctatgcagcatcagttttacctgcattgatgctggaaggaaaccagctttctgaac tgatcgagctagcgatatcctcacaagctctgcctgaaaccagcgcggttgaacgcagggacatagaacttcaaagattacagttt gcgttaaaagcagccttacgcacaggtcgataccaggatgcggctaaactggcactgaaagctggtggagaatgcgcgggtgacaa caggcaaagagtcctgctgagggacaatatcgatctggcagcaaaatttgtgggaagcaacggcgttcaggaactggtttcccgta acgcatttccagatactggctggcctggctccagaaatgcttattatgccgcaatactttccgaatatcctgaactctcaggagag gcccgcagtcgccttcgactcaccatggagtggttaacaaactggagtcaattaccagatgatgagcggagcaggcaaaatgttac cgatcaggacagagcggtaatgctcattgcctgcctgaatattcatggcgcggaagcggcagcaagggagctcagaaggtggcggc ctcgaaaactatcttttgacgctggaaaaattgttgccatgcagttactggcccacgcccgttatgatgaacttgatcagttggct attgcggctggaaacgatatcagcctggttatgggaattgtactggaagcaagaaaacttcaccgtccagtcgctgaacaagcaat cagaagaacctggcgcttgttaaaaagtcagcgagtcagcattaaagacagaaaccacgctaataaccagacaatagcagcaatca ctggcatggttgaaatggcgcttatccaatctgtttgtactgaatcagaaagcatccagttgttggatcgttatttaccaaaggtt cccccctatgctctgacttctgagtatagtaaagaaagagttgcttacgtccgggcatatgctctgcaggcaaacctgatgggctc tcaattagcgcttagcgatttagcctccacagaggttaaaaaagaacttatggctgaaaaacgccacggcgaatctgatgacctgc gtcaactgaagcagtacagcggagtattaatcccttggtataatttatgggccaaagtaattcttggtaaaacaaggaaagcagac ttagaaagtgagctaagtgatactcaaaaagaatcgacggctattaaaggtcattcttactctgagcattcattatcatcaaatga gatcgcaaatgtatggtttgatattctgatcgaagcaggtaatgtatcaaaagacgatgtggaaaacatcatcaaatggagtcagc ataaagggaatagagtattcacaccaacgcttcaccgtttcagttctgtatgtgcagagatttcagggcttggagagctttcatat cacttcgcagaacttgccttatctttatggagggatgagcactctgatgctcagatcaaagctgacggctatatagacctttcccg ttcactcatttcacttgatgaaccagaagctaaagaatactttaaccaagcgattgaagttacaaataagttaggcgatgaaaatt taagtcgatgggaagcgatacttgatcttgctgaatatgttgctggtaaaacgcaagtccctcctgaaatttcctataaactagcc cgatgtgcggaactaaccagagaatatgttgatcgtgataaacattttgcatggagtgatactgttgagattttggctgagttatg tccatcttcagccctagcaataataagtcgttggcgtgaccgtacatttggcaatcatagaagcatactggcatggaccattgagc atcttgtaaagaaaaataaaattaatgcactcgatgcacttcctttaatcacatttgagaatgattggcataaatgcgacttgctt gattcagttttatcctcgtgtactgatgacaaagataagatcatggcattcgaagtggtttaccactatacaaaatttaacgtaca aaatatccaaaatcttaaaaagctggatgctatttctacatcattaggtattgaacacacagaactgaaagaaagaatttcaggtc tacaacatactgagacggtttcaaaaaaatccagtctctcatcgaatgataatgagcaaggccatgaccaggaatgggagtccatt tttaaagattgtgatttatcgtctattgatggtattagtgcagcatacgaaaaatttcgtaatgttcctgaattctattccaaaga aaccttcatcaagaaagcaataagccgagttaagacgggcaaagaatgtagtttcattactgccattggtgctatatttcactggg ggctttatgattttaaatatattcttgaatctatacccgacgaatggacatctcgtttaagcattaaaaccaccctggcaggttta ataaaagaatattgccaacgcttctgtatgcgaatcagaaaaagtcgcgtttacgagatttttcccttcagtctggccagcaggct ttctggtataagtgaaaaagagattttcggtattaccctggaggccattgcagaatcgccagagcccgcaaactctgaccgtttat ttagccttcctggccttcttgttagtaaactggagagtaatgaagcgttagatgtattatcttatgccttggatttattcgacgag gtgctaaaagatgaggatggtgacggcccatggaacgagaaattatctccgccaactcatgtagaggattcacttgcaggctatat ttgggcgcggctgggttctccggaggcggaaatgcgctggcaggcagcacatgcggttctggcactatgtcgaatgagtcgtacat gcgttatacaaggaattttccagcacgcaataaatgctaccactttacctttttgtgatcgcaatctgcccttttataccctccat gctcaattgtggttgatgatcgctgctgcaagggttgcgctggatgatggaaaatcgctgattcccaatattggttatttctacca ttatgccactactgatcagccacatgtattaatccgtcattttgctgccagaactttacttgcactgcatgatagcgacctgatct ctatcccagcacaagaagagaataaactccgaaatataaaccagtctacgactctccctgtgcttgataaggttgaagatcataga ggtgaagattcatatacttttggtatcgactttggcccttactggctaaaacctctgggacgttgtttcggtgtatctcaaaaaca gttagaacctgaaatgcttcgcattattcgtgatgttcttggttttaaaggtagccgcaactgggatgaggatgagcgtaataaac gacgctattatcaagacagagataatcatcacagtcatggttcctatccacgggtcgatgactaccatttttacttgtcataccat gcaatgtttatgaccgctgggcagttattagcgacaaaaccattagttggtagtgactacgacgatgtcgaggatgttttccagga ctggttaagaagacatgatatttctcggaacgatcatcgctggctcgccgatcggagagatattccccccaaagagcgctccagtt ggcttaatagcagttctgacaatagggatgaatggctagcgtcaatctctgaaaatgtatttaacgaaacactatgtcccagcccc ggactattaacgctatggggacgttggtctgacgtttgttcagatcgaaaagaatctattattgtccattctgcgttagtatcgcc ggagcgatctttatcgctcctcagagcattacaaacaactaaaaatgtatatgactataaaatccctgatgctggagataatcttg aaatagatcacgcacactatcagctaaaaggatggattaaagatattgctgaatactgtggaattgatgagtttgatccctgggca ggtaatgtaaggtttccaatcccagaaccagcctcatttatcattgatgcgatgaaattaactactgataaagatcatcgggtatg gtattcaccttctgatgttgaaccggcgatgatttccagtatctggggccatctatcaggtaaaaatgatgaggaaaaatcacatg gttataggctatgtgcttcaatacacttcataaaatcagcattagaaacattcaacatggatctcattttagaggttgatgttgat cgctattcacggaacagcagatatgaacggaataatgaaaatgagctcgacaatatcccttcaagcactcgactcttcctcttccg acatgacggaaccatccacacgctatacggcaattatagaaatggggaaaaaactagttgatgagcttgagctaaatgactctgtt gatacattaagcagatggatggctcatcatatcgcagagctcatttatgatgctgaacattgtacagacgacatcgtccgtacagc taaacaagcggagattagggactctatctggtcattctggtctaacagatacgaattgccaattggtagcagaccatttcaggagc tcgaacctattctaagaaccttaaaaggtcttgatcctgaaaatgagcaaccgagatttttttcaccttaccgagatctaattaat gtagaaaaagaaaccagtgaggtccaaaaatggctaaccgccgctaaggatattgattcagcagcaaaaatactgattgattactg tttatcgttagcagcagaaaatgctatcgataaatcccaagaatgggtggaattagcacagaaagctggattgaacaaagatgttg atctgcttgaaattcgtatctttcagttacgaggtaccccagccaatacagacaatcccaataatgcacaacggagaatactggaa aaaaggcaaaaaaggcttgaagcttttctcttattgggctcccagttaaacgaacaactcaaatctcagcttgaagccttaccagc aattgaggatgagccaacggatgacgacgaagacttttgatatgacttgctttagcactggagacggctcacaagacggaccacat aatagcctaacccaagacttttctactagtcctaatg (SEQ ID NO: 44) 48 pLG050 ttgtgcgtagcacttctccagtttttgttgaaacagataaagagactaaatcgatcattcgaacccaaaaatggccgatttgatgc agacaacgatttaagccatatctggtagcgcaatcgtcacctatgacaaaagttacatacttgtaatattctgaattcaatattct tcgtgaaattcattcaatgcttctttgagtagtgttttggcgttatgataatttcctaaatatcataaggttatcaggcggtgatg tatgaggcgatttgtctatggcgattaaaaacagcgcaatcatttatgcaggctatgattatcagacactccaaggtgtcaggcta ctggcggattggctcaatacaccaactaaatataaccgaatagcatttgaggctgatgcgaaacaagttgatgctccacaaggcat tgatgatattgtctgcgaacgtcaggatggtaaaacagatttttggcaagttaagtttacgccagataccgacaaagaagacaatc aactatcatgggaatggttactgaaacgtagtggtcatagtattcgagctcgttctatactgcaaaaaatagctgatgctgttgat aaagtacctgcggaaagaaggggagatattactcttttgaccaataaaatacctaatcgtgagatagcaacttgcttgcgaaataa caaaatagattggaatcaggttccaattgctaagcagcaaagcattattcttcagttaggtacccaggaaagagcaaagcaatttt tcgatatattacaaatatgtcatagtgatcaaagttatacgcgattaaatagtattgtcccagaactacttcgcaaacataccaac gaggagggggtatatcgcctgattgaacgagctaaacgttgggctatccagcgtaattcaccttcggatggtggatggatatgtct tgaacatattcgtgcagtgatttcaactaatagacctgaacctattccgcagacttttgtcttgccagataactatattgttcctg atgcagattttcacgacaaattcattgattcactttttaatcctactaatcgattagttgtcttaactggtgctccaggaaagggt aaaagtacttacatcagccatatttgtcagatattacaaactcgcgagtttccttatattcgccatcattattttcttgggttaga tgatcgtacgacagatagattaagtcccagaatcgttgctgaagacttgatgtgtcaggtcaaagcattttgctcacaaatcgaaa tgaaaaattatcatgcagagcacctacataaagtgctggctgaatgtgggcagatatataaagaagaaggtaaacgatttttcatc attattgatggtttggatcatgtctggcgtgataacggcaaagataaatctccactggatgagctattttgccaattgttaccgtt gcctgataatgtaacattattggttggtactcaaccagtagatgatgagctattgccatcaagattgttacagaacagtccaagag aagaatggttgcacctaccaaatatgtcaggcgatgctattcgtaaatatctatcgggacaagttgaaagtggccgtatcgtattc aattttcatcaaagccagtatgaagaagttttatcacagtgtgctgagttgttgactactaaaactcagggatatcctcttcatgt tatctactcatgtgaaaaattacatgttgaaggtaaagggttatcgcactgggaaatagaaaacctgcctcgctgcgaaggcggaa acattacaaattattataatgaattatggaaaatattaaattacgagcaacgcgatattcttcatctctgttgtgcttttcctttt ttatggcctgccacatcattttctgagattttttctgagaggactgaaactataccgaatgttaaggctgtaatccatttgcttta tgagtccattgctggattaagaccgtttcatgaaagcttgattgtttttacccgtagcacaactgaacatgagaatagaataaaat tattattgccagcgctaatttcatggctggagaaaagcgcacccaaaccgataaaaaattgttggtactggtcatgtcttgcttac aatggtgatccatatcctttaagaaatggcttaactagagactggatattggaacggttggctgaagggtatcgacaggatgagtt tattcgattactcactcaggctgaaacttctgctttagccgaagggcattttagtgaggcctatcagcatcgttcacgcaagactc gactacttaatgctaggttgcaaatctgggatatgtcgacgttgggcgtttgcagtatgattaatgcttctgaagcattgcttaaa caatatcaatctacccagaatgtcagttcaccaaagatactggcaactttggctatcgctttatggtttcgtaatcatttcgatga agcaaagcgcattacaagattggcgttacaacgctactcaaatgaatcatccgtatataccaataaaaatagcgatgagtcgcgtg ctgacattcgtttattaatcaaagctgctgttttgactgagtgtttcgatgaaaaatggttggcaaccggttcagtacacaagtgg agtgatagtaatattaatctgcttatcgaatgtgcggaatataaatcagatataggattactattttcattacatgatgtttttaa gcaaactgtcataaaaaataaaatagtaaatgcgattgtcagagttgggattgttgaacaaatagatttagaatactggccacatt tttctggtcttgactccgctctgctgcggttatacagtcatttatccactgcacatccatgttcacttataacagagcaaggtgaa agtgaaatcggtagatatcatgttcatccagaagtatcctacgatgaatggttctatgacagccttttttatcgtcttaatgccag tggagattattgttggctaccggttagcacgggggaaggacaggaggaagtcagcagtcattttctccatttaaatgatttctcag atattattgctgaaagtatggctctaaatattcaacaaagcttcagcgatttttgttcacttattgctttggtatcagatcttaaa gatcatcaaatgcaaatccaacagaagcgaatgttttttaaaactgattgggtaagcattgctttaaatttacacttaatcatgca ttgcaagccggttaatacggaagaaattgatattattcttaattctgagcatacagccctgtatcggctgcataaaactattctta actttcatagtagagccttcgaatctgatgcaatagcaaactttctggtatttgaggatgggaggcagaaggaaaaactacaagag acaaatgaatatttggcgaataatcttgagttgtcagagattgcgcttcattatgatctcaatcaatcaattttttttgagcgagt caagttatgttgggactatggtctgggatacggacatcataaagatatagctctgaatcaggtgctgactgcaataaaaactattg caactgttgagcctaaatatgcattaacgcagcttgagcgtgtgagtccattggttcataatatttgtgacttcacagatggtgac catactcaacattccgtaacggaattgtctgcgctatatgctcatctttctccccttactttaagtagtatctatgacagttatgt tagcgagggtgagtggtatgatgcggataatgcattaacgcaatacttaaaacatgctgatctatcatcacctttcgttgagagtt tatgccggacattactagatgatgggcaaattgaaataatacagaatcgtgctaaagacaatgccatattgactacgttttggccg gaaatattaccacgaaaaatggattatagtagtagcgcaaaacgttcattaagggggactgaaaaatttgatccagcaaaaatcag ccctgctgatgtaactaatttactcaatgttcggtcaagttatgaaaatattcctaagtggtatcattattggaaagaccaaggaa aagttacagaagtaattaacgtattgctgccaatcattaataatggcttgccagaatatagtgaatttcgttatatattatctgat ttatttgaagatacattgcgtttgaaaggtaaaaaatatgcttttcccattttagtgcaggaacatattcagcgaaatggttgggg tgaatggggggagtctgatgatcaaacatatgctcggttagataaagttatcagattgtatccggataaaattgatgactttcttt acaagacgactcgacttcatcactataaaactaaagaagagaacttggtaattcccgggaataagctaacatatttattagtaaat gtaggccgagtggatgaggcgaaaagtctatgtgaagcgatgatttcggaggtagaggcagaaacccagaatcttccgttgtgcaa acctcaatggcaatgggagggagaattagataacgatatgatcgccgttaaattcatcattcgtcgtcttttttggcctgttcaat gtgtaaaacatcttgtcgctgatcaattgtctcatctcttagttaatggtcaatgtgctgaagaaattgaaaatttacttgtagtt gagatgggaaatcgtcaactggagtcagaggtggtagatattttaactgttctctggttagctagtttgaaaggttataaggttca gaataatatatcttcctttatttatgctcgtagctttctttcagatgcattgctggaggctatcgttccaaatttaccaaacctca gtcgctatcaagtgctgtataaacatcctgatgatgatggtaatcactatggctttgaaaaaacacttggcaatgaacttccccat atattttgggatgaagtaaaaaggcttgaggagaaatctggagctccggctaaaatattaatgaaaaaagaatggaatgatatttg ttataatcatgttcaacgatgggaaagggttgattatttcttcggttcagagcgtgatggttttactatgagtttttccacaagga atacacgatttggtatatctgcatacttgagaaccattaaccggcttatcaacgaatttagaatgccaaagcattatgcagaacat tattcgatttgtttaatgtcagccaacccattattttattccgtatctaatcaccgacctggttggttacctttatggcaatatgg ggagattaccacaaaggaaaatgtaaaaacatatgttgaggaatgcctgaatgcattcaaaaatgaacaggaaaattcaatattag gagcattgtcattacctgtacgcatcgatgaaaataattggttagatattacggctgttatggggatacaaacagaagaatatgcc tcttttaagatacaacatgccgactgtggtcatagtgtagatagtttacttcaagcttatagaaatattaaattttcatttgcaaa atgggctgaataccaaaattgtgtaccactattgggaagtacacgcgaattactgagaatagcacggtgggatataatgtacgaat ttcgtgggcttttctcattcggttgccaggaacaggttactgcctacccggctaaaaatcgtattaacttcgattatcagggtaaa accatcggctatagtgacttctggcaagcaataccattatcaatttatcctaaggatatacgctcacctgttgctacttacactgc ttatgataaggaccttgcctgtaactggaaaaatcatagcgtactgaaaaagcctaatatcatgttatgtgattgtaaggtactaa agagagaaaatagttacagtccttttgaaatatcagatattcgttttcactttgaatctgagccgttatagtaaggattattttgc gataattaatcaacggggagctggtcaaagtgcctgctcccatattgactaatatacaaatgtgtttgttaagacctttccaaagg tagggggaattatgaatttccgctcctcgctcatagccgcctgccagatttaaccccaccctaccacagggccccctcaagccaag ccgccgccaatacaattttcccccacaccaaaacgcctccctccctagagcacgtactcacaacgccga (SEQ ID NO: 45) 49 pLG051 gggatttccaccacctcccaccgaccatctaagactttatgccactgtccctaggactgctatgtactaggagcggatgttaaact cagactcgtttcagctacattgcgttttgaataatattccatcataataactctttgaaaaatgtgatcttttcatttataacact gatgacttgcttatctcattgggatatcggaggagaatacttaactatgacaagcccgattattatgacactggctatattatata gattgatattaaaatgtaggattaggttcttgccaaggtgtcaagatttacagataggtttaaaaccatataaatatgttttacgg tgagatacaatacatattgtaaggcataaacgcttggtaaaattttaattattggaagaagctaatcatggaacccatatcaatta cagtggcaacttatgtagcaactaaacttattgatcaattcatctctcaagaaggatatggttgtattaagaaagcattattcccc caaaaaagatatgtggatagattatatcaactaattgaagagacggcaattgagtttgaagaaacatatccagtagaaagtggagc aataccattttatcattccgaaccattgtttgagatgttgaatgagcacatcttttttaaagagttccctgacaaagagatattat tagacaagttcaaagaatatccaagtatcactcccccaactcaacaacaactcagccttttttatgagatgttatcattaaaaatc aataattgttcgaagttaaaaaagctacatatcgaagaaacgtataaagaaaaaatattcgatattaatgaagagctcattcaagt caaacttattttacggtctatagatgagaaactaacttttcacttaagtgatgattggttaaatgaaaaaaatagtcaagcaatag ctgacttgggaggtcgatacacacccgaactcaacgtaaagctagaaatagcagagatatttgatggcctcggtagaactaatgat ttttctaaaatattttattcgcatatagatagctttctggtcgctggaaagaaattacatagttgcgatgtaatttcctcagaatt atttgaaataaaccagtccttaaaagaaatttctgatatatatcaggagattaatttttctaaattagatgaaatccctataaata aatttaataactatgtttctagctgccagacagctattggcggagcggtatcaatattgtgggaactccgagaaaagtcagagcaa gtaggtgaaaccaagcattacagtgataagtattcatctactctgcgaatgcttcgggaatttgactatgcgtgcaatgaattacg tatattcattaattcaacaacagtgaagttggctaacaacccattcttacttctcgaaggaaaagcaggaattggtaagtctcatt tactggctgatgtgattaaaaatcgaattgcttctgggtatccttcactactcatactagggcaacaacttacttcagatgaatct ccatggtcacaaatcttcaagagattacagcttaaaatcacttctcgtgaattcctagaaaaactgaatttatatggcaaaaaaac aggaaaaagagtcttagtttttattgatgctattaatgaaggtaatggaaataaattctggaatgacaatattaacagttttgtcg atgaaatcagatgctttgaatggcttggtctgataatgtcagtcagaacaacatatagaaatgtaacaatttcacatgagaatgtt gtgcgaaataattttgaaattcatgaacatattggattccagaacgttgagttggaagcggttagtctattttatgattattacaa tattgagaggccttcatctcctaaccttaatccagagtttaaaaatcctctatttcttaagttattgtgtgaaggcattaagaaaa atggtttaaccaaagtgcctgttggatttaatgggatttcaaatatttttaactttttagttgaaggggtaaataaatcattagca tcgccaaaaaaatatgcattcgatcccagttttcctcttgttaaagatgctctcaatgaaatcataaaattcaaattagagattgg tcgtaatagtatttcacttaaagatgctcactcagtggttcaatctgtagttaatgattatgttgctgataaaaccttcctcagcg ccttgattgacgaaggattattgactaaaggcatagtgagaaatgatgataattctactgaggaagtagtttatgtggcttttgaa aggtttgatgatcatttaactgttaattttttattaaatgatgttgaaaatatcgaaagtgaatttaagcctgatggtcgtctgaa aaaatattttcatgatgaatgtgatttttatataaaatcgggaatagtagaggcgttgtctattcaattgccagaaaggtatgaaa aagagctttatgaatttctgccggagttcagcaataatcttaaattactagaagcctttattgatagcttgatatggcgcgatatt aaggctattgatttcgaaaaaattagacctttcatcaatgaacatgtttttaaatttaaagatagttttgatcatttcctcgaggc agtgatctctatttcaggtttagttggccatccctttaatgctaatttcttgcatgattggctaaaagattattctttggcaaatc gagattcgttttggactacagaacttaaatataaatatagtgaagactcagcatttaggcatctaatcgattgggcatgggccaga acagataaaagctttgtttcggatgagtcaatcgagctagttgcaactagtttatgctggtttttaacttctagtaaccgagaact tcgagattgctcaactaaggctttagtgagtttactcgagccaagaattcctgtattgagaaaaataattgataagttttatggtg taaatgatccttacgtttgggaaagaatatttgcagttgcattaggctgtacattgcgaactgataatattaaagaactaaaatat ttagccgaaactgtttaccaaaaggtattttgttctaagtatgtgtatccaaatatattacttagagattatgctagagagattat tgaatttgctaatcatcttggattggaacttgaaagcattgaattatccaagactagaccaccctacaacagcatttggcctgaca agattccttcaaaagaggaactagagtccctttatgataaagaaccttatcgggaactctggagctctattatggaagatggtgac ttttcacgatatactattggaacaaattataatcattctgattggtctggttgcaagtttaatgaaacccctgttgaccgtaagca agtttttaaaactttcaaatgtaaactaactgatcaacaaaaagacttgtatgatgccacagatcctttcatttatgatgataaat gcgaaggaattaaatttggtcgtgtggtcggtagaaaagcacaggaagaaataaaggcgagcaagaaattatttaagaattcattg tcatacgatctgttaagtgagtttgaaaatgaaatagagccatacctggatcataataataatctgctggaaactgataaacactt tgatcttcgactagctcaacaatttatattcaatcgtgttatagagcttggttgggatccggagaagcatggtaattttgaccaac aaataggaactggacgtggacgtagagaggcattccaagaacggattggtaaaaaataccaatggattgcttattatgaatacatg gcaaggctagccgataattttactcgttttgaaggttatggtgacgaacgaaaggaaaatccataccaagggccatgggagcctta cgtaagagatatagatcccactatcttacttaaagaaactggaacgaaaaaaataagcaataaagaaatgtggtggcttaatgatg aagtgtttgattggacttgctctaatgaagactgggttaaaagttctactactataactaattcatatgcttttattgaagttaaa gatgataatggtgatgaatggatagtattagaaagtcatccatcatggaaagaaccaaaaattattggaaacgatgattgggggca cccacgaaaagaggtttggtatcagatcagaagttatatcgttaaagttgaagaatttgaaaattttagatgttgggcaatagctc aagactttatgggcaggtggatgccggaatgtactgatagataccaattatttaatagggagtactattggtccgaagcatttaag tcttttaaatcagattattatggtggatctgactggacttcggtaacagaccgggagtctggagctaagatagctgatgttagtgt cacttcgattaattatttgtgggaagaggagttcgacaaatcaaaaatagaaactttgaattttttgaagcctagtaacttaatct ttgaaaagatgggattaaaaagtggggaagtagagggtagcttcaatgatgaaaatggaactatggtttgctttgcagctgaagct gtatatgcttcaaagccgcatctacttgttaaaaaagaaccatttttaacaatgttaagggacaatggttttgaaatcgtttggac attattaggtgaaaagggcgttatagggggctcactcatatcaagtcatcattatggtcgacaggagtttagtggagcattttatt atgaagacagtcagctaacaggaagtcataaaactagctttacgagataaaaatgaatctcagagctgaatatataagtagtatta gaaaccgggttatacttaagaaatcaatcttaagtgtggcagtcgaatggtagctaatatgctagcggcgctaatgcctgtttgtt gctcataacaggcattcactttagttatggcagaaaagtatacatgctgggttgggaaagtgtgaaagaaaggaagattgctgcgc cgtttgtcgtcacgtttatcttcattggctatgca (SEQ ID NO: 46) 50 pLG052 aaatctctttcgcgtcaatagtggtaatatttttttatcattgtcctctttctactgacatactgattgtccgacagtggagccag tcgaaattgttgacagctagtcggggctcgtctggtctttctagcagtaagaaacgtattaatattggatcgccactagtttaaca gatacctcagaattatttatagactgacaccaccccggcagacgatcctgccctataggaagctaagtggaaacttatccagtaac agcttgtcgattttatcccagagggtgttcctcaggatgtatcgctgaaatcaaatccagcactaagaatgaggggtgagaaacca tttccttggtgggtctttgaccatttctgttgaactaatgtttttgggttatcaaggatacaaattcaaggcagtgtttcactaaa ccttacctcgcttcaataccaatacatttttaatgggtataatatgtgactgcttttgccgcattattgacaggaacaaggactgg tgatgaatattgatttcagtttaattcgtagcgcccccaaaagccgtaacgatagctttgaagcactcgccgtacagttatttagg aaaacctgtcgagtaccgacaaattcaacatttattagtctgcgtggagatggtggagacggtggcgttgaggcatatttccgctc accggacggtgccgtattcggtgttcaggcaaaatactttttccagcttgcttccgcagagcttacacagattgatagttccctta aagctgcgctaagcaaccatcccacactaaccgaatactggatttatataccgtttgacctgaccgggcgtgttgctgcgggaaag cgaggaaaaagccaggcggaacgctttgaagaatggaaaagtaaagtcgaatcggaagcgtcagcgaaagggaagtcactttctat tgtcctttgtaccgctgctgttatctgcaatcaattacttgagatagacccttacggagggatgcgcaggtattggtttgatgaca cgttgctgacaacagctcaaattcaacaatgtctggaggacgccattgcttttgccgggccaagatatacttcaatgctggatgtg gtgacgaatgctcatgtcggcctggatttctttggtgggactggtgacttttgcgagtggtacgaaacatcattaacaccaatcgt tcgagagttccattcactgaatggatacggacgcaaatcgctggatatactcggcgaaacccgtgctacatctgccacggcattga ttgaagaaataattgcctactgtgagagcatgagagataacaatgtcacggccacatcggttacagatctttccgtcgctctgtca tccctattgacacttttcgctgatgcccgccatgctcaagaagataaattttatgaaaagcatggcaagcatagtgatacagaatc gttccgacagttccacgcagagtatatgtgtgcatttcctgccggagatatggatgcggcgagaaaatgggaagagcaggcgcagc aactgcaaaatttgctgacttctcaggtcattggtgccgcaacagcacattccttactgctggttgggccagcgggtatcggcaaa acccacgcgattgtcagcgcagcattgcgtcgactggaacatggtggtttttcactggtcgtctttggagacgactttggcaaagc agagccttgggaagtgctacgcagtaaaatagggctgggtgccgccatcgatcgttcgacattatttgaatgcatacaggcctgcg ccgaacatactggcttaccttttgtcatttatatcgatgcattgaacgaaagcccgcgagaagtgcgctggaaggacaagcttccc gaattgctcgctcaatgcaagtcttatccagacatcaaaatctgcgtttcaacccgagatacctatcgcaatcttgtggtcgattc acgctttccagggtttgctttcgaacacatcggtttttcaggacatcaattcgaagcggtacaagctttcgcagcctactatgagc tggatgcagagattacaccacttttttcacccgaactcggtaatcctttatttttacacttggcctgtaaaacgctaaagggcgaa ggccgtgacagtctggatatttctttgccgggttttacctctctgtttcaaggacatctcaaacattgcgatgttttaattcgaga acgcctccactacgcaaaccctcgtaatctggtaagggctgcaatgatggcactcgcgaaaaccctgacacatgagttgccgcaga accgaacgtgggaaacctgttgcgaagcactgagcaaaatagtgggaactgagaccacacctgaatcctttttaaatgcattggca catgaaggcctcattatcctttctgttgtagatgaggataccttcctgatccgtctgggttatcaacgctacggtgacatactccg tgctatcagccttgtggaaactcttgattcggatacagtaaaactagcggagaaaattgcagcgttaacagaagaagatgctggat tgctggaagctcttgccgccgtgctgccagagaaaactgctcttgaaattactgctgaagaagtaggattaccatccgaacaagcc cataagctgttcatccagtcattggtttggcgctcccgacaaagtgtagtggaagaaattgatgaacacatccatgcagcactgca tacacctggattatgggagtcggtttatgaagcgctgttttcacttagtctggttcctgaccatcgtctaaacgcaactaactggc tggggccatttttacggcagtcatccttagctgaacgtgacacctacttgtcattagctgcgctgggatcatttgataataagact gctgtctattcactcatccatgcagcactatttgctgacataacccattggcctgctgaaagccggaggctggccagtctaacact tgcctggctcacttcgtgtgctgaccgccgaatcagggatttatcctcaaaagggctaagcagaatcctggcaaactacccggaga actgccaaacagtaatcagtgaatttgcatattgtgatgatgattacgtattagagcgtattagccttgctatctacagtgcatgc ttattgtcataccaacgcagaaatgcgtttatgccagcgctccctggtctattaagcattgcgtcagatagcaagaatattctgct ccgggatacggttcagctattagtaaacttgttgaaaacaggagaatttcccacagccgtaacaagccaattacagcattaccaga caaacgtatcattaccatcacgatggcctgtactggcggatgtcaaacccctcctagatctggaacatttaccatcaaacatggtg ctctggggagaatccatggccccggatttctggcgttatcaggtggaatcgaagatttccggctttgacttggagagcgccaatat cagccatgaaaacattgcctgttggttaatgcgagaagcacttaatttaggatatcccggttataaccactgcgcgctcaattatg atcgccatatcgggagtcagtatggctcgggacggggtagaaaagggtatgctgaccgactcggtaaaaaatattactggatcgcc ttacatcgactactgggcattctggccagtaatgttcccgcactggaagacccatattccgactacgaacctacaagtgatcttct atggtcagtcgacgtccgtaaagttgacctgaccgatgtacgcgatatcaccgcagaaggtgtctatccagtactgatggaggaaa caaattatgcattccctgaccacaattcagatatcaaaggttgggttaggaccgatgattttccaccttatgaagcttgtcttatt cgaactgacgaggaaggagagcagtgggtagcgctttcacatagctattgggatgacgataaagcgccgaatgaaaatagctggga ttccccgtacttgggagtgcgtgcttcctactcaagcgcactcataaatgaaagcatccagaactttaaacagaaaagatcacgcg atattttccaatataatcagggaagtagttgttatcgcggttatcttgctgaatatcctgacagcccggtatacaaacaacttctt aatagtgatgaagatagtgaagcgtttaattttacagaagtcagtttactgcgcggaaacgaatgggaatacgactactcatatac catgcccgagcgccaggataacctcattgcgccatgcctgggaattattcaaaaactcgaacttttatgggattgtcaaagcggtt gggttgatcattctggcaaacttatcgccttccatcaaaaaggtgtaaaacaacgcggacttttcatccatcgttcggcattgaac gcctatctgtccataacaggtgaagagcttatacatcgccgttttgctaacagaggatattttgatttagctggtcgtaatagcac gcaaatagacctgaaaacttggatccagtaccgggcagacaaggcaccggtagttttacgagaagaggaactgccgtttaactgct gacaacgatacttattaagtaatcaactggctgccttggcatcgaatgccagaagagccatttcgcactaccaatttaagtagact gaaggaatacttggtacaagcaaacgcacgccatatcggatagaggggact (SEQ ID NO: 47) 51 pLG053 gcgcagctgacaaagattgaccgtgagcgctctgatggagaaagacgatagttgctgagtacgatatcgagggtacatttctctgt gtaggggtagttatttacaaaaaaataggagaataattaaatggtcaaaccaaactgggataactttaaagctaaatttagtgaga atcctcaaggtaattttgagtggttttgctacttgttgttctgtcaagaattcaaaatgcccgcaggtatatttagatataagaat caatctggtatcgaaactaatccaataaccaaagataatgaaattatcggttggcaatctaaattctatgacacaaaattgtcgga taacaaagctgatcttatagaaatgattgagaaaagcaaaaaggcttatccaggattaagtaaaatcattttctatactaatcaag agtgggggcaggggagaaagtcccatgaacctgaaggcgataagaacgctgataattatttggaaactgtcggaaatagtaacgat cccaaaataaaaattgaagttgatcagaaagcatatgagtcgggtatcgaaatagtatggagagttgctagtttttttgaatcacc gtttgtaatagttgagaatgaaaagattgctaaacatttcttctcccttaatgaaagcatctttgatttattagaagaaaagcgca agcacacagaaaatgttttatatgaaattcaaaccaatatagagttcaaagacagaagtattgaaattgacagacgacattgcata gaacttctacatgagaatctagttcagaaaaaaattgtcatcgtcagcggagaaggtggggttggaaaaacagcagttatcaaaaa aatttatgaagcagaaaaacaatacactcctttctatgtctttaaggctagcgagtttaaaaaggacagcattaatgagttattcg gtgcgcatggcttagacgatttctctaatgctcatcaagacgaattacgtaaagtcatagtcgtagattctgctgaaaagctttta gaactgaccaatatcgatccttttaaagaattcctgactgttttaataaaggataaatggcaggttgttttcacaacccgtaacaa ttacttggcagatctgaactatgctttcatagatatttataagataactcctggaaacttagtaataaagaaccttgaacgcggcg agctaatagagttatctgataacaatggatttagccttcctcaagatgttcgattattagaactaatcaaaaatccattttatcta agtgaatatttgaggttctataccggtgaaagcatcgattatgtgagcttcaaagaaaagctatggaataagattatcgtcaaaaa taaaccttctcgggagcagtgtttcttagcgactgcttttcagcgggctagtgagggccaattttttgtctccccggcatgtgata ctggaattttagatgagttagttaaagacggaattgtcggctatgaagctgctggttacttcattacacatgatatatacgaggaa tgggcattagaaaagaaaatttctgtcgattatatccgtaaagcgaacaataacgagttcttcgaaaaaataggagaatcacttcc tgttcgccgtagttttcggaattggatatctgaacgattgcttttagatgaccagtccataaagccttttatcgcagaaatagtct gtggagaaggaatatcaaatttttggaaagacgagttatgggtagctgtccttctttccgacaattcaagcatattttttaattac tttaaaagatatttacttagtagtgaccagaatctattaaaaagacttactttcttattgaggcttgcttgcaaggacgttgatta cgatctgcttaaacagttaggtgtaagtaattcagatctgctttccattaaatatgttcttactaagcctaagggaactggttggc agagtgtgatccaatttatctatgaaaatttagatgaaatagggatcagaaatattaattttatacttcctgtgattcaggagtgg aatcaaagaaacaaagtgggtgaaacgactcgattatctagtttgatagctctaaaatattatcaatggactatagatgaggatgt ctatttatccggaagggataatgagaaaaatattctgcatacgattcttcatggggcggccatgattaaacctgaaatggaagagg ttttagttaaggttcttaaaaataggtggaaagagcatggtaccccatatttcgaccttatgaccttaatccttactgacttagat tcatatccggtttgggcatctctcccggaatatgttctacaattggcagatctgttctggtatcggccacttaaagaaacaggcga acgttatcacagtatggatattgaagatgagttcggtctatttaggtctcatcacgactattatccagaaagtccatatcagactc ctatatattggttactacaatcacagttcaaaaaaacaatagactttattcttgattttacgaacaagacaacgatatgttttgcc cactcccattttgctaaaaacgaaattgaagaagtagatgtctttattgaagaaggaaagtttataaagcaatatatatgcaatcg tctgtggtgctcataccgaggaacacaggtctctacctacttactttcatcaattcatatggcattggaaaagttttttcttgaga attttaaaaatgcagactcgaaagtgttggaaagttggcttcttttcttgttaagaaataccaagtcagcttctatttctgcagta gttacgagtattgtacttgcattccctgagaagacattcaatgtagctaaagtactattccaaacaaaggacttcttccgttttga tatgaatcgaatggttctagacagaacacataaaagttcattaatctccctcagggatggctttggcggtacagattacagaaact ctttgcacgaagaagatagaattaaagcttgcgatgatgtgcatagaaatacttatcttgaaaatcttgccttgcattatcaaatt ttcaggagtgaaaatgtaacggagaaagatgccattgaaaggcaacaagtgctctgggatattttcgacaaatactataatcagct tccagatgaagctcaagaaactgaagccgataagacgtggaggctctgcttggcaagaatggatcggcgaaagatgaaaataacta ccaaggagaaagatgaagggattgagatatcattcaatcctgagattgaccctaaactaaagcaatatagtgaggaagcaataaag aaaaactccgagcatatgaagtatgtaacgctgaaactatgggcaagctataaaagagaaaaggatgaacgttataagaattatgg aatgtatgaggacaatccgcaaattgctttacaagagaccaaagaaataataaaaaagcttaatgaggaagggggtgaagatttca gactattaaatggtaatataccagcagacgtttgttctgtattactgttagattattttaatcagttgaataatgaagagagagaa tactgtaaagatattgttctagcgtattctaaacttccgttgaaggaaggctataattatcaggtacaagatggaacaacctcggc aatttcagccttacccgtgatttatcataattatccaatggaaagggagactataaaaacaatattacttttgacactgtttaatg accactctattggaatggcaggtgggcgctactcagtatttcctagtatggtgattcataaattatggctagactattttgatgat atgcagtccctattgtttggttttttgattttaaagccaaaatatgtaatcctttcaagaaaaatcattcatgaaagttatcgtca agtagactatgacattaaaaaaataaatattaataaggtgtttttaaataactataagcattgcatatcaaatgtcatcgataata aaatatctatagatgatttgggaagtatggataaagttgatctacatattttgaacacagctttccaattaattccagttgatact gttaatattgaacataagaaattggtttccttaattgttaaaagattttctacaagcctattgtcaagtgttcgagaagatagagt tgattacgctcttcggcagtctttcttggaaagatttgcctactttacgcttcatgcgcccgtgagcgatattcccgattatataa aaccttttcttgatggtttcaacggttcagagcctatttcagagttatttaaaaaatttattctcgtcgaagatagattaaatact tacgccaaattttggaaggtttgggatttgttttttgataaagtggttactttgtgcaaggatggagataggtattggtatgtaga taaaattataaaaagttacctttttgctgaatctccatggaaagaaaactctaatggttggcacacatttaaagatagcaatagtc aattcttttgcgatgtatctaggactatgggccattgcccttcaactttatattctcttgccaaatctttgaataacattgccagt tgctatcttaatcaaggtataacttggctttcagaaatattgtcggttaataaaaagctatgggaaaagaaattggaaaatgatac tgtttattatttggaatgtttggttaggcggtatattaacaatgagcgtgagcgaattagacgaaccaaacagttgaaacaagagg tcttagtaatattggattttttggtagagaaaggatcggttgttggttatatgtcacgggaaaatattctgtgatgtagttgaaaa taataattttaatgagagcttttccaatttaggctccagggattggagcctttttattatcg (SEQ ID NO: 48) 52 pLG054 accttcttcgctaactgatggctaatgaggccgtaataaaacttaccttacctgtaaatacttttactactcattcagatcagaat gaagaggtttattttatttcattgaaaattaataaataaaaatattggcacggtatgtgcttatacagaatgccattttactaaca aggaatttaccgatgtcggaattaaaaaaatttcaggtacaaacagcacgtgcattgccggtgattgtgttggcggataccagtgg gagtatgtcaacagatggcaagattgatgcacttaatctggggctcagggaaatgcttgatagttttaaacaagagagccgcctgc gcgctgaaattcaggtcagcgttattacgtttggtggtcaccaggctgaagttagcttgccattgacgcctgctcaccagttgcaa agtattacctccctggaggcaaatggcatgactccactgggtggcgcactatcgctggcctgcgagattattgaaaatccaacgcg aaaatttcagccgattatcgtgcttatctccgatggctaccctaacgacgactgggaagccccttttgctcgcctgattcacggtg aacttactgccaaggcctcccgttttgccatggctatcggtgcagatgccgatgaatcaatgctcaacgaatttgcaaatgatcct gaggctcctctcttccacgcagaaaacgcgcgtgacattcgccgttttttcagagcggtaagcatgagcgtcagcgcacgaagccg ttccgcaaccccgaatcagtctacaccgttgcagatcccgagtgctgatgatcaggactgggagttctgatgcgcctgtacgcttc tggcacctcggtacgtggtcccgcacaccaacaggatgatgaacccaatcaggatgctgtagggatttacggtctgcgtggtggct ggtgtattgccgttgctgacgggttgggtagccgatcaaaaagtcatttgggttcccgtaaggcagtcaatctgctgcggcagatc atgcgcggtgcggagatgctggtcgctgccgaagtgactccagcgttacgtgaagcttggctaaaccactttggtactgactatca cgattacgaaactacctgtttgtgggcctgtgtcgaggcgtcgggccatggcgtgatcggacaggtaggcgatggcctgctgctgg tcagaagtgctggggtgttcaacgtaatgagcacaccacgacggggttacagcaatcacactgagactctggcacagcgtgcacat ttagatagttgcagtgccagagtggcattaacccaacccggagatggcgtactgatgatgaccgacggtatcgctgatgaccttat cccggatcagctggagtcattctttaatgctatctaccaacggatacggcaatgcagcaagcgtcgtacacgtcgctggttaacac aggaacttaacggctggtcgactccaaatcatggtgacgacaagagcctcgctggaattttcaggatggactgaccacatgacatc aatagtaaaaacgcaaccaaaacgcgtggtgaaggataccaggggatcaagttacgagctgacagaggtaattaaccgtggtggac aaggcattgtttaccggacgacctatccgcaaaccctggtgaaaggttttactaatcaggacccacaggaacgccagcgctggcgc aaccatattacatggctgctcagccaggatcttagcgacctcaaacttgcacgtccattaatacttctggcggagcctcgctttgg ttacgtaatggagctgatggatggcctggttccattggatagcctgttgaacagctttataaacgcaggggaggagtctctggcgg attatctgcgtcagggaggactccgtcggcggattcgtatcctttgccagctggcacgcacactcaatcagcttcacgcacgcggc atgttgtatggtgatctctcccccagcaatatttttgtttcagacgatccaagacacgcggagacctggcttatcgactgcgataa catcagcctgacagcccatcacaatctgactctgcataccgtggactatggtgctcccgaagtggtcaggggagaatcgttactgt ccagcctgaccgatgtatggagcttcgccgtcattgcctggcaactgctgactcataaccatccgtttaaaggggaactggtcagt aatggtcctcctgagatggaagaagctgccatgcgcggtgaatacccgtggatcaatgacgcacaggatgacgcgaatcactgctt cgtcaatctgccaccggagctgattgcacatagtgcactgccaactctcttcgctcgctgctttgaacagggaaggtttgaacctc atgagcgtccgggtatggctgaatggcttgaggcgctgagtgctgtggatgagcgtctgtttacctgtgacagctgtgggggaagc acgctcctggcagaggaagcagaaagcgcgaacgatgccgtttgcttttactgtgacagtcccgccgaccgcctcctggtccggtt tagtgaatatgtgactgagcaacaagacggctcgaatccagacaccaaaaccttgattgccacagggcgaaatgtatggctgcagc caggtcaccgtgttgagttaaagcgcctgttgccaagttttatctatgaccactggccatcagatcatctgcagattgattacacc gcccgcgggattgggatccatccgttgcttggcggagagctatacctacaacgcggtgaaactatcaaaccactgcgggggtttca gggactcaaaaacgagctgcgcggaacaggtggggagccttggcagatccatatcggcgatcctggccagtcgcatgtaatctggc agttcacgtggtgacaatatatgaaaattaacgaatttccactgatgtccaaagatattctgctgctggaaacggataaaggaacc accgggttccggccaaagcaagctatcacctttcaggcgtatggtgagaattggctggcggtacagggggatcattgcgtaagtgt ccagtgctcccctggtgatcacgaactctttagccgtctggtgatgagggatcaggttcgttggttgctgaccagtaaagcggaaa aacagttgcgggttcaatattgcacgcctgttgaagtcacaccaatgcagctcgagttgggaattgatgagcgaattgcggaagac cttttcgcgaaaaaacagatcaataacaacgatattgagcttgcctgccgctggtttgaagagacttttattgtccatagcgagtc agaaagtgactggttaacggttggccgttttagcaatcatgcagccaaaggtggttttcagctattgggaaacggctggcgtgcgg atgttgagcgcaacccggaccacggctttcttatcagacgtattactggtcatttaagccatgatacaggcttctcgttgctggtt ggacacttcgccttccgggatatgtcagttgctgcggtgctgaatagtgcaacccagcaggcaatgctcgatgccgcactgcgaga cagtgccagctaccttgagctctggaatctctacaacgataaagagtggcagagcgagttgaaaaaggccgaaacgctgggtgttc tgcgctttgttgcgtgcgagggcaccgaagctggccgggaaaatgtctggcatctgactccccgaactcctgaagaatacagagaa tttcgccagcgctggcgcgcgctcgatctgcccgcaggcactcaggttgacctgggcgctgaaactcccgactgggcagaagaact cagtaccgaagaggatacggtactgaaaacgccgcgcgggaagatcgagttcgctgatgaatatgtggtctttacttcagcctcga atcgccgagacgtgcgccccgcaaagcctgaaggatggctctacctctcgttggcaggatatcgcacagtcggcaaacgtcgcctg gcggcaaaacgtgccattgattccggtaaacgcatgccacagttgaagtggctgctggaaggggtcgttgttcctgctgctcggcg tcgcaacatccaggggatgacaccctacgcccgcgaaatctttaagggtggcaaaccaacgggcaaccaggaactggctgtgttta ccgctctgaacacacccgacattgctatcgtaattggcccgcccggaacagggaaaacccaggtgatcgctgcgctacagcgacgt ctggcggaagaggcccaggaaaagaatattgctgctcaggttttaatcagcagttttcagcatgatgccgtcgataacgcgctgga ccgcagtgacgttttcggtctgcctgcatcacgtgtgggcgggcgtcgtgcttcagtagaagacgagtcaccactggatccctggt tgtctcgccacgccagtcatctgcaggagaaaattgctgaccagtatcaacgctacccggagttgaaaacaattgccgacctcact tcccggcttgccctgcagcgattggcaaacgacctgcctcaacaacgggcagaggctttttcgcatatttatcaggacgtcaattc cctggcagagaaagggctggtcacggactcccggcttgagatacgtctgcaggactatattaagcatctgaaacaggatggtgttg ctgaggtcagtacggtgatgaatgtagcagtattgcgccgcattcgcgcgttacggaccactcagactgctttctcagatgatggt gccgatcgtgcctgggatttgctgcgatggttgaagcggaatgttcctgacatcgacgctgagctgacctcggtattggaaatagc tgccgatgccagagaagttcctgtggcactcgtcgagtgccagcaacagctgctggagcgttttctgcccgattatcgacctccgg ccctcaaaaataagatcgatgatgaaggactggctctactgaatgacctcgacaagcatctttccgacttgatgcatcggcgtaag cagggtgtggcatgggtgcttgaacaaatggccgatacgctggagatggaccgccgtgccgcacaggaggtggtggatgaatacgc catggtggtgggagcgacctgccagcaggccgccgggcaacagatggccagcctcaagtcggtttcaggagtcaagagcagtgaca ttgagttcgataccgtagtcgttgacgaggctgcacgcgccaaccctcttgacctgtttgtgcctatgtcgatggccacgcggaga attattctggtcggcgacgaccgccagcttccgcatatgctggaaccggatattgaaggccagttacaggaggagcatcagcttac ggcactgcaactggctgcctttcgttcaagtctttttgagcgcatgaggctaaagctactggacctgcaaaagaaagataatttac agagggttgtgatgcttgataagcagttccgcatgcatccactgctgggagatttcatcagccagcagttttatgaaaaagaaggg ctggggagagtggaaccaggccgtagcgcagaggaatttgtctttgacgaaggtttcctgagagcgctggggccactggcgtcggc ctatcgtgacaaggtctgccagtggatcgacctgcccgcttctgctgggctggcagaaaaatcaggaaccagccgtatccgcacca ttgaagcggagcgtattgctcaagaggtggcacagttactgaaagccggaggagaaaccctctctgttggggtaattactttctat gccgcacaacgagaactgattatggaaaagttatccgaaatcaggctggaaggcgtgccactgatggaaaaacgtaacggaaccta tgaaccgcatgaaaactttcgctgggtgcgcaagtaccgtgctgacggttcgttcagccaggaagagcggttacgagtaggttcgg tggatgccttccagggtaaagagttcgatgttgtactgctatcctgcgtgcgcacctggcgtcagccgaggtcctcatctgccgcc gatgatgcagctgccagggaacaaatgcttaatgaactgttcggtttcctgcgtctgcctaaccgcatgaacgtcgccatgagccg acaacgacagatgctgctttgcttcggcgatgcagcactggccaccgctcccgaagccctggaagccgcgccagcactggcagcat ttcataccttatgcggaggcgttcatggcactcttcgctgaaacaggtatttatattcaatctgccccacggccgcagggtgaagc gcgcccgatactctggccagtcaggatacatagggtgctctacccggaaagctatcaggctcagatcaatgtcttccaacgcgcaa ttctcggattggtacgagcgcgcgtcgtacgtccgaccgaactggcagaactgaccggtctgcaccctaaacttattacgcttatc ctggcacaaagcgtcagtaatggctggcttgagtccggtgaagataccctcacttcagcgggtcagcggttgctggatgatgagga tgacggtattggcaaacaaaaatcaggctatgtattgcaggatgctgtaagcggaaagttctggccgcgtctggtcagcacattga agcaaatcgaaccggtcaatcctctggataaatatccgcaatttatactgaccaggaaaacaggagcgacactgcgacctttcctg atgaatgccagccgatcgccactgccgcctctggaacgcaaagaactgaagcgtgcctggcgtgactatcgtgacgactatcgtgc cagtcagcaactgggcgtcagccgtttgccgccacacattaacctgcacggtctgcagcagctagaggaaccaccgcagtgcgcac gaatactggtgtggatcaccactgatcgagagagtggacagctatggagtgccgcggacccatttgctctgcgcagtaacgcatgg tggctggacctgccttcaatcgtggaaagtgactcccggttgcaaaagatactggaaccgctggttgtggtgccacgcgccgcaga acaaacctaccagcagtggcttgaggctatcgcgcacgaaactgattttaagatgatgagtcaatacccttgggccgaacgtttac cggatgtgaaacgttatttggtggcgctattggtacatagagggaggatcgagcagggtgataacggtcaaagtgagctggatgcc gcactgaacgagtgccagaagctgctggaggttgttatgcagtggctgattcgtcgtcatccagccaacgcggaattattacccaa gggccgcctggataaaattaatacggccaacttgctcaaggatatgaaaataccagcatttaccccatcagttattgatggcctat ctggccagataatacgtcaggtgcgctacgcatgtagcaacccatccggctcattgaaggcactactttttgcagcggctgtcggt gcgaaccaggatccacagcacccattttggtcactggatgactcagcgttacaactgccaatgctgctgcaactggcggatcgtcg caacaagagtagtcatggacagagtaaatatcttgataagccggtacaggaactcactcagcagatggttgaggaaagtatcagtt atgcattgagttttaccgaacgttttaaggaatggatgtaatgtcaaaacgagcacaacagaagtatacctcacctattcccaagc agagaaatggctctgctgcggcatctgccatcaccacacttcagaggtctgcaatgacaaccgagtcgcagattattgccgcagcc catcacacagctcagagtgaaaagcttccaaaagatatcgattttgatgtgacatggctggaacgtatcagtcaacgtcttcagca ggaaggagatgatcaatttgtctcctggcttcagacatttactcttttctgccagaaactggcgcaaagggatgaagagacgcaag cagcagcacagcgtattcaacagctggagctgacgctggaggagcaaagcgaaaagttagaacaggaccgtgttgaacatgacatt caagctcgggaactggcggaaaagaaagccgggatcgtgagcaaagaacgagagctgaatgaacgtgagctcaacgccaaagcggg cttcagcgagcagaatgcagcatcgctgcgaaacctgacccagaggcagcagttactcgaccagcagcatcaggaggatattcaac agctcatcacacaaaagcaggggttaatgcgggaaatatcgcaggccattgtccagttgacccagttacaaatccagcaaagcgac gcggaggcacagcgcagcttgtcactggaccagcgcgaagaagacatcatcaggaaagaggaggatctgaagcgcgccagccgtcg tctggaacgagacgagcggtctgtagaggcggagagacaggcgctgaacgaatgtttggctgaagcaatgcaaacagaacgccttg agtttgaaaagaagctggatcagaaagagcgtcagttcgacaaagctcaggaacgggtgcaaaacctcagtgaacgcctcatggaa tgggaggaacttgatcaggcgctcaatggccaatccgcttcgcaaatgctgaatgagctggataagttacgcgatgaaaaccgcga acttaaaagtcagttcgcgcacactaacctagcagagctggagcgcgagaacaaatctctggccaacagcaaaagcgctcttaaaa atcagctggaaaatctgcttgcagagatggacaagctacaacgcgaggtggatcttcagcgagtggctgcgacccagcttgagaca gtggcacgggagaagcggcttcttgagcagcagaaacatctgcttggtcaccagattgatgagattgaagctcgtattggcaagct gaccgatgccagcaaaacccagacgccgttccctgccatgtcacaaatggacgagaagaatgggctcaacgcaaaacgtgatcatc gagaggtcggtgacctgaaaaattttgccagtgagcttcagcagcgtattgctcaggcggaagagagcgtgcagctattctatcca ctggaaagtatccagctgctgcttggtggtctggcgatgagccaactgcacctgttccaagggatcagcgggaccggaaaaaccag cctcgccaaggcctttgcaaaagcgatggggggattttgtaccgatatttcggtgcaggctggctggcgtgaccgcgacgatcttc taggccactataatgccttcgagcggcgctattacgagaaagactgccttcaggcactctaccgtgctcaaacaccgtactggcag gacacctgtaatgtcattcttctcgatgagatgaatctttctcgaccggagcagtattttgctgagtttctctcggccctggagaa gaacagccacgctgatcgaaaaattgcccttaccgaaacagctttactcaatgccccggaacggctcgttgaaggacgccatattc tggtaccaggtaacctgtggtttattggcaccgccaaccatgatgaaaccacaaatgagctggccgacaaaacctacgatcgtgcc catgtgatgacactaccgaagcacgacactcgctttcctgtcagggagatggagaaaaccagctattcgtggcggtcactgcatga agcctttgctaaagcaaaaacgcaacatgcggaaacggtcaggaacatgctggagcaactgtccggtcatgaatttactcacctgc tggaaacagattttggcatcggctggggcaaccgttttgacaagcaggcgatggatttcatcccggtgacgatggcctccggggca gaagctgggcgcgcgctcgatcatctgctggcgacccgtattatgcgctcaggtaaggttaccgggcgctataatattggcttgga atcggtcacacgactcaaagaagaacttgaatttttctggattcaggtcggtctgcaaggcgatccggttgaatctatggcattgc tggaggcagatatccgccgtctgtcaggtgcgcgctgatgtggcacgatcgtttaactggtaggcaacatgcacatcttccgcaac ggattgatcacgggcgttactcaatcgaggcttcccctctgacgctaaatggacatacaccgaattttttcggattgctggtcagc gacggcggagcaaattgtcggctggacgatacgctgcataacttcattcagcctccgcccggccatgaagaggaaacccggctgct ggaggaagccatcaccacgatcggtgccgcagttgatgatgacatcagtgtgctatcgccgctgatgccagcagctattgtcgata atcaaagccttttgctacctttcgaacgtgcactgctggaggtgatacaaaaaggacatttacagcatatatcacagcggccgcgg ctggatttacgttatgacgatgaggtggccgacgttgcccgcgtgcgtcgtctggcaaagggtgcactggtacatctggcgtcaca ctccgaatgctggcagcgtcagacactcggcggcgtggtacccaagcagatactggcacagtttagcgaagatgatttcaatatct acgagaatcgggtttatgcgcgattactggataagatcgaacgtcatttgtatcaccggctgcgcactttgagaagcctgcaatct actcttgcccaagcactggacttctatcaatctcaggaggtgaattaccgcctgcgcaatgctatttgtcagttgtgggggatgac ttacgatgaggatgcgactgatggcgcatctcggcagctcaacgccacattggcgacgctggagcaaattttccgcatcatttccg gtctgcgacaaagcggcctctatctgcgggtaagtcgtactgcgcaagtgacaggtggagttcatatgacgaatattttaagtcac gatcctcactatggtcatttgcctttactatgggcacagttggctgacggggctcagcccgaaaatttgcctcaacaacgcctcag agtgaaccagagcctggcagctgcgtatagcagctatgccgggttggtgttacgccatgcgttgcagccctggttacacggtaaga gtgaaggaagctgggctggtcgcactctgcgacttcgccagcaaggcatggaatggctgctgagctgtgattccaatgacagtgcc agtgaagagacgctgttgtctctggtgccatttctgaaccaccagcaggtagcggtagacctaccggaaaatcggtatatcgcctg gccttgcgtggggcatttacagcaggcattacctgataaagagggctggattcggctttcacctttagatatgtactgtgtagagc gttttggcttactgatagataaaattcttagccgggaattattgcgaaactttgcccgtccggttatccgtattccccggtgcgta ttaccacttgctacaaaactgtcttcactgacagttgatcaacagttaaatcagataacactgcatggggatctgactaaagctga gctggaacaattaacctctcatttaatcaacaacaatgctagcacacaggcagaggaaattacgctgcgataccgggaatggcgag cattgcaacagtgccctgtctgcgaccatacaaccgaactggtttatcaatatcccggtggatttaaaaccctctgtaaaaactgc aataccgctcgttatttcagccagcatgaaaatgcacacttttttgaacaaaccagaacagtagaaagagaaagtaaaaccttcct ggctcaggggcggagagtttttaactttcagttttagcagggtttttacgactcgctgcatttttaaagagttaagaataatgaaa cttcagggcatcttttatatatcggtattacgcaaatcagtagtttcggttgcgcgttttgtatacataccggcaagtgtccaatc acagtgaatagccaaaatcgccgggagcacgttcggtcagcctgcggacatggtttttatcacgt (SEQ ID NO: 49) 53 pLG055 ggattcaccattatagtgacatgttcaagatgatgatatatctttgaaaagtgttctctttgcgaacggtatagaatttctagcgt tacttttcataattacactttttagggttaggcaggcacaatctatgcgctgtcttagataactacatccatttttactggactac caccaacaaaaatttagtggtgcaggagaaaacgtgaagtatcagatagtaggtggtgctggcctgcaccgcagcgaaaccaaaac agttgatatgatggttaagcagttaccagatagttggtttggctatgctggcttagttgttactgatagccaagggtcgatggaaa tcgatatgctaattattactgctgaccgtctgctattagtcgagcttaaagagtggaatggtaacatcacatttgaaggggggaag tggctgcaaaatggtaagtcacgaggcaaaagtccctatcagatcaagcgtgagcatgcactgcgactaaaagatttgttgcagga agagttatctcgtaagctgggttactttttgcatgttgaggctcatgtagtgctgtgtggcacagctggtcctgaaaacttgccat taagtgagaggcgctatgttcatacccgtgatgaattcttgactataggtaacccaaaaaattacgaaaagctggtgcaacacact aacttttttcatctttttgaagggggaaagcctcgaccaaattctgatgaggcattacctataattaagtccttctttgaaggacc aaaagtcaggcctttgccactaaaagaaagcggttatcttgcgaacgataagccattctttagtcaccctcacatggtctacaacg aattcagggctacccacaaagacaatagtcaacacagaggtctgctacggcagtggaactttgatgccttgggtgtagcaaacgca atgcaaacattgtgggctgagatagctctgcgtgagactcgagtcggtcgcctagttcgtcatggcagcgcaactatgcaggatta tatgttgcgtgctgtaagggaactatccgaggaggatataactgatgatgcccgtgagctgtatgagttacgccgtagttttagcc gattagatgagattctagatagcgaagctgacggatggagtaaatctgagcgtattgatcgcgttcgtgcattattagctccattc tcggaattacatagcttgggtatcagtcattgtgatattgacccgcacaatctatggtacgcaggggatcagaagagcattgtcgt tactggctttggcgcagcctcactggagggacataatagcctagagtcattgcgtccgacattgcaaagtgctccatatattttgc ccgaagatgcttttgaagaagcagttgagccctatcgcctagatgtattcatgttggctgtaattgcttatcgtatttgttttgca ggtgaatcattactgactcctggacagatgcctgaatggagagctccattaactgatccttttagcggtattctaaatagctggtt tgagcaagctcttaaccttgagccaagtaaacgctttccacgtgcggacataatgctcaatgagtttaatgcagctactaaggaac atagccaagaatttgatgaagctaaccagatttatcaagaattaaagcaaaacaaattctttcgcgaagggatgaacagcgttggt gtgttaattgagtttcctccacttcctgaacagttgtctatggtttactctgctcttgctgctattgctacgactggcagcatcag ttatcactgtgaacaaggtgggaaagctctgcaggtaaaattgtgggatggtgttattttgacccctcaacaacctggtgttaacc gccgtatccacgcttttaagcaacggatcgataagcttacgcatataaatctgccaactcctaaggtgcagtcctatggactatta ggacaaggcggcttgtatgtagtgagcgagtatgtggatggcctaccgtggtcacagtttattgctgagaacgtgttagtacaatc ccaacgttttacaattgcggaaaagttgatcaacaccattcatgcttttcatgaaaagcagttacctcatggagatctttgcccag agaaactgctggtacaagtcggggagcagacagtaattactctgattggattgcttgaattcagtgatgaattaactgcagataat cgctaccagccagagaatcccgaaagtactgatgcttttgggcgagattgctttgcagtatatcgtatggtggaggagctatttag tgaagatatgccagtactggtgcaggctgagctagaacgcgcaaaacaaaccgttgacggtatacctatcgcgctcgatcctttgc tgcagtcaattcgagcaccggaacaagctgagattaatcaagttgtggcgtctgagtcacaggataaggtaattcctgtttgctgg ggcacagatgattggccgcaagaagtgaagcttctagaacaaaatgatgggatctattattttcaatgtaactggtcatctaaccc acgctttgcgcatgaattgcgttgttacatcactggcctaggagagcggctattgatagacttagatcctgataatcgcactatta atagaatagtgtatgaaaaaggattatcgatcgaagaaagtataaaggctggtaaatattcccaggctaaaattaatactcaactt tcattacaacgtggctcacttaatcagcgtaatacttttattgaactactgtttaacctcgagccagtaattgatgccatcattga gcgagctaatcctaatcaagagatggatgaagatgacttcgatagtagtgagtcaagcccaattgagttatggcaggcattatctg atacagaagtagacctacgagatatagtcaacatcgactctactgactttcaggaatcaccgagtggttgcttactctacccatat actacggaatccggtgctgacctcagctttgaacttgatgataagatcattgtttatattaaagataagcgtgaatcagtgcaatt aggggaattgcagctaagtgagactacgccgagtctattggctattcgctttgattttgatgctgctcgtaagcgaattagtagcg gcagccagctacaattggaatcgatccgtgacaaatcatcaagagagttgcgtcaaagagcccttcaacgggtaattgaaaacaaa gcagagatccagcatctgccacagtattttgattaccaccagaaaccctgcatgcagcaaatgcaaccgcggccatccgcggagac attacgcgcactttatgatcagcctggacaacgttttaatgaacagcagctaatggcatttcaacagttggtcgagtttggaccag ttggagttctgcagggaccacctggaacaggtaaaacaacatttatttcaaaatttattcactatctgtatcaacattgcggtgtg aataacattcttttggtcgggcaatcccatgcctctgttgataatgtagccatcaaggctcgagagctctgccatacgaaaggaat ggaactggatacagtacgtattggtaatgaacttatgattgatgagggtatgctaagtgttgcaactaaagctcttcagcgacaga ttcagcataaatttcaccgtgaatatgatctgcgagttagctccctaggaaagcgcctagggatggccccattattagtccaacag ttatgtcagttacatcgtacgctgaatcccttgatggtgacatatggccaatatagccgtgagctggataaagtagaacaaataaa gagtagtagtattagtcatcaagagcgactggctgaattattagaacaaagcaatcagcttaaactgcgaacacaagaaattatta actcaatattcgatgacagcttgctgaaaactcttgtctatgatgaaaccttgataagacagttggctgagcaagttgccatacaa tacaattataacaatccagagaaccttgaacgttttatgcagctattggaaatgagccaagagtggatggatgtattacgcggcgg cgaggctggatttgatcgatttatgttcaaaagtaagcgattggtttgtggaactcttgttggtgttgggaatcgtcgactagaac tagctgagtccagctttgattgggtaatagttgatgaggctggccgagcacaagctgctgaattgatggtagcgctgcaatcaggc aagcgggtgctgttggtaggggatcataaacaattgccaccattctatcatcaacagcatcttaagttagcctctaagaaattaga actcgggaaagggatcttttatgagtctgattttgaacgtgcttttaaagcaacaggcggcgtaacactcgatactcaatatcgaa tggtagaaccaattggcgagttagtatcggagtgcttttacgctcaagatatcggtaaactgcattcatcgaggaaagtctcgcca gattggtattccaagttaccaatcccttggaacaaaactgttacttggatcgatagttcgagccctaatgaagcaggtgcagaaga acataagggtaatggtcgttactataatcaacgagaagtccggctactgctagaggctttgcagtcattgtcgagtgatggctgca ttgcacagcttgagcaaactattaccacagaacagccatatcctattggtataatcacaatgtatcgtcagcaaaaagaggaaatt gacaatgctatcagtcgggctgaatgggctgcatcgttacgtggtttgatcaagatcgataccgttgattcatatcagggccagga aaacaagataattatcctcagtctggttcgcgataatcccaacaaactacaaggtttcctgcgcgacgcgccgcgaataaacgttg ctatttcgcgagctcaagaaaggttattgattctgggagcaaggcgtatgtggtcaaagaccaataatgattcagcacttggaaac gttcatgaatttattagtaaacaggttgcagtagatgaacccaactaccaaatcctgtgtggtcaaagtctgcttggagataacaa ctaatgtcagaaccacgtctgggtaatctgattaccgttttactacctgcgcgtagttacaagatcaactgcgctttgaccactga aaaactgatgcctggaattgaacagtttgcatgtcgcttgctgctgatttttgatcaactctatcccagcgagttacagaattact ttggtctaactgatcgtgagcgagaggtattgcttgatgggttgctggctaacagactgatcaacattaatcctgatgggcatatt gaggctagctcattcctacgtaagcatgcagctaataatggtgggaagccaagtttagttaaatatcaagaatgtacggaggaagt tgcattcgatctactaactctttcgatatgtaaaccgcaaccaaatcgtcgttttacttctggactgccagagctattgccgcggc atcagatcgggggagatgctgctgcggtaacagaggcttttagttcccagtttcggcaccatcttttgctcagccgcaacagcgag tatgagcgtcaacggactaaattatataagataatgggctgtagttcgcatgagatggtgcagctcccaatagagatagaggttag ctacggtgtttctgctgggagcattgagccgcagaaatttactcgttcctatgaatatttaggtaacacccggctgccgctttcaa acgagctggaagctcatatcgcagattttttgggagaacataaactagatgaattcggtatcgactgtgaagatttctgtaaacta gcaaatgataaagtgttgttacaatttgctaatggttataagttcaactattccggctggatagaggctcgtgaacaacgtaaaac tggctacggtacttcattgactaccggcatgttaggggctgtttatttgccgcacaattctaagctgttcattagtatgttgcata atgcattacgtgattatataggtaaaacagctccaaaagcgctgtggtatagcagtaaagtaccactgtggggagctaatggtagt caactttcgcgttttactcgcgctctaggcgatatacttggcaattatgccgatgataagattgctcgcatttcgcttttacactc aagtgcagatgaaggtgaaaaacgtcaagagcgtaagcggcacttaggtcgttttcctaccggtattggccttacttcagaggcta aatttgatcgtttggagatcctcttaattcctgatgtgattgctttggtgcaataccacggtcaacctaattctgatagtgcatta accctgccgattggttatataactgttgagccagagcgtttagaattacttaaaaaactaatgattaagcgaactgaaggggctgt tgcaaccattacttggtctgaatcaaaatttgaaaatttagcttcgctattacctgttgagtttctgattaaactgaataagaaaa gcggtgaagatgtggatgctgcaataaaaaaaatgcagatctataaccgtgctgaaaccgcacgggcaattttatcgctacgcaag tagcatttatattgcaacgaataaatttttctaggttgctatgaactagctaaagggcaacaaatagataaacggcgttattcatg tcaaatgagataatgttaaattgatagggatttataccccgccggccattttgaatggtcggagttgttataaacgtta (SEQ ID NO: 50)  54 pLG056 cgtgatgaatgaagcggctaaatacattaatgataattataatttaattcattaaaatcagtaatatataaatataaaagttgtga aatgtgatattcgtcaaagcatgtcaaaaagttttgactgttctttaggcatcattcgcaattgtctaacaacttgataggatagg aacaatctcaaaaaggaaaatgacatatggcatacgaagctcaaatcagccgtactaatccagcagcatttcttttcgtcgtcgat cagtcaggttcaatgtccgacaaaatgtcttccggccgaagcaaggctgagtttgtcgccgatgctcttaatcgaactttaatgaa cctaatcactcgctgcactaagtctgaaggcgtacgtgattatttcgaaattggtgttttgggttatggcggtcaaggggtttcta atggtttctctggttcactgggaggacaagtcctcaatccaatttctgctctcgaacagaatccagccagagtagaagatcgcaaa cggaagatggatgatggagctggcggaatcatcgagacagcaattaagtttccagtatggttcgatcctattgctagtggcggcac gcctatgcgtgaagccctgaccagagccgccgaagagttggtgacttggtgtgatgcccatccggattgctatcctccgactatcc tgcatgtgactgacggcgaatcaaacgacggtgacccggaagagattgccaatcatctacgacaaattcgcaccaatgacggtgaa gttctgattcttaatatccatgtcagttctctcggaaatgatccaatcagattcccctcctcagacactggcttaccggatgccta cgctaaactgcttttccgtatgtccagccctcttccggaacatctggtgcgtttcgcgcaggaaaaaggtcatacggtcggtatag aatctcgtggattcatgttcaacgctgaggctgccgaactcgtcgatttcttcgacatcggaacccgcgcttctcagttgcgttga ttcagcaatgaaactggagttcttagggacagttccgaaagatcctgaataccctaaggcgaatgaagataaatttgccttctccg aagatgggagaaggctggcgctatgtgatggcgcgagtgagtccttcaactcaaagttatgggccgatcttcttgctcgtaaattt actgcagatccgaaagtaaatcctgaatgggtagcatctgctttagcggaatattctgccacgcatgacttcccttctatgtcctg gtcccagcaagcggcattcgaaagaggcagttttgcgacactaataggtgtagaggaatttgaagagcatcaggcggtagagattc ttgctattggagatagcatcaccatgctggttgattgcgggaaactcatttgcgcatggcctttcgataatccagaaaaatttaat gagcggccaacactgcttgctacgctgtacgctcataacaatttcgtcggtggaagcactttctggacacggcatgggaaaacttt ttaccttgaaaaactcacccaacccaaactcctctgtatgacagatgcgctcggcgaatgggcactgaaacaagcgctggcagagg attctggttttatcgaattactttcgctgcaaactgaagaagagcttgcagagttagttctgagagagcgtgcagcaaaacgtatg catatcgacgactcaacgctgcttgtactatcgttttaacgcggaaagtaaagatgccttacccatctcttgaacaatacaaccaa gcgtttcagctacatagtaagctgctaatcgatcctgaattgaaatctggtaccgttgccacgacagggttgggtctccccctagc catcagcggtggctttgcactgacctatacaatcaaatcaggcgctaagaaatacgccgttcgttgctttcatagagagtcaaaag ccttagaacgccgttatgaggctatatccaggaagatttcaagccttcgctctccctactttctcgatttccagtttcagccccaa ggggtcaaagtcgaaggaatatcataccctatcgtcaaaatggcatgggccaagggagagacgctaggagaattccttgaggtcaa caggcgttctgcacaagcaatagcgaaactatctgcatcgattgaatcacttgccgcctaccttgaaaaagaaaaaattgcacatg gtgatttccagactggaaacctgatggtctccgacggaggtgcaaccgtccagttaatcgactatgacggcatgttcgttgatgag attaagacattaggaagctcggagttggggcatgtcaattttcagcatccccgtcgtaaagcaacgaatccgttcaatcacactct ggatcgtttctcactaatttcactctggctggctcttaaagccttgcaaatcgatccgtccatttgggataaatcaaattcggaac tggatgcaatcatttttcgagctaatgactttgtagaccccggttcatcttccatcttagggatgctatcgggaattcaacagctt tccacccatgtaaagaattttgccgcagtctgcgcttcagcgatggaaaaaacgccttccctcggtgacttcattgcaagtaaaaa cattcccatatcgctagcttcgatcagtatgaatggggatattccagtcagcaggctgaaacccggttatatcggtgcctacaccg tcctgtcagccttggattacagtgcttgccttcagcgagttggtgataaagttgaagttatcggaaagattattgacgtcaaactc aataagacccgaaatggcaaaccatatatctttgttaatttcggagattggcgcggtaatatctttaaaatatcaatatggagtga aggcattagcgctttaccttcaaaacccgatgcctcatggatagggaaatggattagtgtaatcggccttatggaaccgccttacg ttagcgggaaatacaaatattcacatatctcaattacagtaacgactatcggtcaaatgaccgttctttcagaaccagatgcccgc tggcgtcttgctgggccaaacgaaagtcgacaaacattaacttctactagcagtaatcaggaagccttggagcgcattaagagtaa gagcaccacttcaactcctatgcccatgaacactaacgccacaactgcaaatcaggcaatccttaacaagttacgggcttctacgc aaactgtagcggcagcaagagcgcaaactcagcatgtagtacctaataaatcatcaacgcattatgtggcaccgacgggaacatca gcttcgcagccagttcaaaatattccgagccctgctagtacctcaaagcagcaaacctctcaaaaaaatatagttacaaagatttt gaaatggctttttggatgattggtacttgtaaagaacaagcgcaatttcagtggccgtatcacttgcgcttgaggtgcctgcgggt atgatcttgcgacatacaccactaaaacgaattcgtggcggcacttttagcctgcccctgtgttttcccgaggatttac (SEQ ID NO: 51) 55 pLG057 ggggcgaaaaggggaatgccggtcattgccggacgagtgcaccttaaaatgtgcggcagggggcgcccgcgggctgatccatttgg cagaatggccgtgcatgcgacgatcgagcgcgggagacggctgaccctgatggacaaacgcgctttgagcgagcgggacatctgca ctaagttcatcacgtcgtggcttgacagatgtttgccttgaccggtcgaatagccccattcggggccgtgtactttgcaaatgggc cgaggtgcccgaaaaaccggtctggagccaggacaagaattacagtgcgcgaaccccaccggttactcacagcccgcttattggag ttgatcgaaacccatcccgaaggattgcgactcgacgaggttcaggcgcgtacgcgtgttgaagggtgtcgcgcgggagtcgatga tctcgcagcagcgctactcgatctccagcaccaaggtcttgcacatataaacgcagcccggcgctggtttccgaagcgggcggcga gtgtacgaccatcctccgcagtcactggttcggatgacgtggcgggtgcagggctggtgctgcaggcgctaccggcgcgcatcact ggcaacgatatggcggtagcaccagcacctgcattgagtgctaccggcacctcgctcaagccgacttggggcctgttacgcagcct gctgccgtattacgccgaggcgctagcccgcaatgaacgggcgttgctactcggaacgcctgagcgctacggcgagcagttcctgc tcgtggcaccacgcggccgatggtggccagcagcagggttaggctacgggctagaactctcgcgtacgcatctgccggttgctttt ctcaccgcgttagcccgacgcacgcgcgaaccgattcatgtagcctaccccatcgcgctggtgcggccccgcgacgccgcgcgcag cccctttctgttaccagtggcaactgtggcagcggactggaccctcgacgccgagaaactgcgcctgaatctgccggcccaaacgc cggcgatcgaatggtcgtgggtgcgcggacagcgccagcgcggacgccagattcgcgagttgctcgatgcacttgatgtcaatgct gacgacgaagtctggcgggcaggctccttcgtcgactgggcgaccttcgtcgatcgtctcgctgcaaccacccctaccgaggtgcg cacaccgctcgatctcgctcagcccaacaatgagttggattgtggccaggcgggcggtatttacggggcgttggggctgttcctgt cgagcgaattgcagttcgcgcgcggggcggtgcgtgatctcaagtccatgacgcagtggtcagatgacgagctggccacaacggcg ctggctgcgtgcttcagcgatgccatccacaaggcaccgaatccggtcatcgttccggtgctggagccgcttgtgcttggcgagga tcagcttgcggccgtgcgtgccgggctaaacgatcggctgaccgtggtaaccgggccgcccgggaccggcaagtcacaggtcgccg ttgccctgatggctagcgcagcgcttgtcggtcgcagcgtcctgtttgccagccgcaatcatcaggcgatcgacgcagtcgtcggg cggctggccgaagtagttgaagaccggccgctggtaatccgtgccaatgcgcgcgaaagcgatgacagcttcgactttacccgtgc gatcgaagccatcctcgcgcggcccggtggtgagaggcccggcgaagggctggctggctcgatcgaagtgctgacgcggctcgatg cggcacggaccgctgcgatcgaacaggccgccactgctaaccaagcgatcaacgaactcgggcggctggaagcagcgatcggagat ctgacggcagcccttggcatcgacgcagccgctccactaccgcgggatctgcccgctgccacacgacccttgcatagttggctaga gcgcctgtttgcgccttgggtacggtaccggcgactacaacggctacggcgtctagcgctgggatggggccagcttggttttggcg agtgcgacgaatcgacgctggagctacacgaacaacgtctactcgacctgcaggagctggctgcgctgcgggtcgagcgggatcag gcagaggcagccgtgcgtcaactccgttcaaccggcgatccgatcgcgctcggagagcggctgtgcgcttcatccaaattgcgtct gcaggggctcgccgaactgcttatcgagtgtgcgcctgaagatcgccgtgcgttgaccgcgttgcgcggcgatctggctctggcgc gcggtgatggcgccgccggtgctgcccgtgctcgggaactctggtcggctcagcgagccctgatcctcggccagatgccgctatgg gccgtgtcaaacctcggcgcagccagccgcattccgctggtacccgggttgttcgattatgtggtgcttgacgaggcatcgcagtg tgatatcgcttcggctttgccgctgctggcccgggctcggcaggcgatcgtgattggtgatcccgcgcagcttacgcatatctccc aagtgcgccgggagtgggaagccgaaaccctgcgcaatgccggcttgatgaggcctggcatcggcagctatttgttctcgaccaac agtttgttccatcttgctgctgctgccgccggcgaccatcacctgctgcgcgatcacttccgctgccatgaagatattgccgacta cattagtgccacattctacggcaatcgcctgcggccattgaccgacccgcgtagcctgcgggcaccagtcggacaggcagccggtt ttcactggacgaccgcgcccggtccgatccaaccagcccgcaccggctgctttgcaccagccgagatcgaagccatcgtgcacgaa ttgcattggttgctgggtgagggcggcttcactggaagcattggcgtagtcacatcgtttcgcgaacaggccaaccgtctacgcga ccgcatcgagcattgtttgagtgccgaggcgattgcaagcgcacgattggaggttcacaccgctcacggcttccagggcgatgcgc gcgatgtgattctactcagtttatgtatcggtccggatatgccggctggggcgcgagccttcctgcacgacacgggaaatctcgtt aatgttgcggtgagccgtgcccgcgccgtttgccatatcttcggcaacctggagtatggagctcactgcggtatccggtatgtcga ggcactgctggcacggcgccatcgaacaggcgatgccactgccagtttcgaatccccctgggaagaaaagctctggcgcgccttgg ctgagcgcggtatcgagacaacaccacaatacccgattgccggtcgccggcttgatctggcattgctgaccgacagtgtgcgtctc gatattgaggtcgatggcgaccgttttcatcgcgacctcgacggtcggcgcaaggtgggtgatctatggcgagatcatcaattgca ggcgctcggctggcgggtcgtgcgcttctgggtttacgaactgcgggagaacatggatggttgcgtcgaacgcatccttgtccaca tccgaagcaccgattactgagcatcaccgttccccaccagcagcagccgtgccaccagcgaattggcggcgaatgcaactcgtgct cgggctggccggggctctggcgctggctagcctcgtcactgtattggtgggtgtaatcggcgacgccaccgaacgcgagagttggc gagtacggcgtagcgagcatcaggaggtgctgggcgcgctcagcaccgcacgtgcccagcttgatgaggaagtcgccaacctacgc cgtaatcgtgctgcgctcgatgcagacctgaatcgtctccggaccagcgccgaagctgagcagggcggcgcagcacggctgcgtga ggaagtcgccgcactacgccaggagctcgccgccggccgcgccgagttggctgtggctacgcagcggcgcgacaccctgcaggctg cagtgaagacggccgatacgacgctggcggaactgaacgcgcgccgcgatgaggccgagcgtcagaccggtgaggcagcagaacgc cggcgggtcgcggccgaagccgagcgggccgcgaaggcccagcagagcaaggccgaacaagcccgcgacagtgcggttgcacagca gaaggaggctgagcggcgcatcgagcagatccttcaggacctgaaaaccgccgaagaacgagtaggtggactgcgcacgcaagagg ctcaactaaaagcggctacaactgcctccactgccgaacgtgaccggctggatgctgaagccaagcggctcggactggagcttgtc aagctcgatcagcagcgccagcagcttgagcgcgatacccgtactaccgccgaaactcgacggacggccgaggggctccagcagca gctcgaccaagcgaaccgggatctcggtaccgtccgcgaagccctgaagaccgcgcaggggcagctagccgaaacgcgcggccagc agacccaactcgccgacgaactggcccggctgcgcgcacagaaaaccggcctggatggcgtgatcaccgcggctgctaacgctcaa gcggaacttgacaaactgcaggctcagcagaaacgggcggagcaagcagcagaaacgacgcgtctcgatgttcgtcagctcgaatc tcggaaaacggcactggaagccgacatcatcaaattcaccgccagcggcaaggatttggaaaagttccgtgccgaactggctgata ccaatgcagaactcgaacgtctgcgtcagcaattggttgaggcacggagccggcgcgagactatcgcgattgaagtggaacgccta acgcaacagcgcggcgaactggagcgcaccatcggttcactaacgccgcgagcgcaggaggccgaagcgctacggatccggctcca gcaagacaacggcactttgctcgccctgcgcgagcagattgaacgcttgcgcactgaacgtgacagcttgcagcagccggtcacat cttccatgcatgtccccggcgacaacgccgcggcacgctgatcaaggatcgcgctgatggacacgaacaccctggtctggcttgca tcgggtggcacgcttgccggcatcgtcagtgttatcaccgcattggtgtgcggcatgcactacggtgcggcgctacgccgcatacc ggctgcggcctttttggaagatatcgtcgcacgcgtcgcaactcgtcgcgaggaactcgaacggctggatgcccaattgggcgagc gccacaacggcctccagggcctgcggggcgaaacggagatgctgacggcccgccgggatgccttggcagcgcaactgcgcgaactg caggaggacctggttgcactcgatgggcgccgggccgacatcgcttcggtgcgcgatgagttggcggaagcacggacgcaacttgc catgctcgtcagtgaactgaccgaacggcggacgcagcaggagcaactcgaacgcgcggccgaacgtgcccgtgcacaactgtccc tgctcgaagaacgccggagcgagatcgaggcaatcgatacagccgagcgcgaagcacggatacggctcaccgaggcgcagacggaa ctgggcaccgtcgtccaggcgcgggaagcggcacggcgtgaagccgaggcggcagcgcgcgacagggagatgctggcaacgaacat cgaccggctcaccgatgagcgcaacgaactgcgcgctgacatcgccagtctccaagccgaacgcaatccgctgtcgactgaagttc agggcctgcgccggcacttggagcagttgcatcttcagcagcaggcactcgacggcgatcttcaacgcctgcaatccctacagccg gtactggaagataaaatcagcggcctgcaacaggaagttgttacccggaccgctgaactcaaagaccttcaggccgaacgtgatcc gctgtcgactgaagttcagggtctgcgccggcacttggagcagttgcaccttcagcggcagacactcgacggcgatcttcaacgcc tgcaatccctacagccggtactggaagacaaaatcagcggcctgcaacaggaagttgttacccggaccgctgagctcaaagacctt caggccgaacgtgatccgctggcagcggacattgatggcctgcgtcggcaactcgaaccgctgcgtacacagtgcgacgaagtcga agcggaactcgcccgccgccgcgccgaactcgccgcgatcgagcaggagatccgtaccaaaggcggtggtagcgtcggcaacccgg aagacgtgctcgccgatctcgaacaggcaccggcttgtctggtcggcgacggcggcaggggaccgttgatgccgaatccgcagcgc gacgacgacgaaacagcaatgctcggccgcgtgcggacacaccttgatcggctccgtctgcactttcccgagcgcactctttatgc ttttcatactgcgctcaagacggcaacgattagtccgcttacagtgctggccggcatttccggtaccggcaagagtcagctgccgc gccgctatgccgaagcaatgggtatccatttcttgaaactgccggttcaaccacgttgggatagcccgcaggacatgctcggtttc tacaattatttggagaagcgctacaaagcgaccgaatttgcacgggctctggtgcatttcgacacgtacaactggccgcttgcccg gcctttcaaggatcggctactgttgatcctgcttgacgaactgaacctcgctcgcgtcgagtactacttcagcgagtttctgagcc aactcgaaggccgtcccgccccgggcgatcgcgatcctgagcacatccgcagttcggaaatcgtgctcgatactggcggcgttggc ggaccgccgccacgcatctatcccggccacaacctgctgttcgtcggcacgatgaacgaggatgagtcgacacagacactttccga caaggtgctcgatcgcgccaacctgctgcgcttcccgcgccccgaaaaactggccggagaaacgctggcgagcggcggcgagccgg cggaaggcttcctgccggcctctcgctggcatgcgtggcggcgcagttttggcacgctgccggcaacgctgcgcgaaccagtcgaa cgttggatccacgatctcaatgagcatctagacgggctgcatcgaccgttcgcgcaccgtgtcaatcaggcgatgctcgcctacat cgccaactatccgggtgtcgccgagccgatggcgcaaaccagtcctctggatcaggcccgcattgcctttgccgatcaactcgaac agcgcattctgccgaagctacgaggcattgacctgggtgactctggagtcacccagcacctcgaccgcatccgtgcgttgatcgac aacgagttgcatgatgcaacactggctcgcgcctttcagcgcgccgcgcaagatgacggcagcggcaggccgttcgtgtggaaagg cgtacgccgtgaatcgatatgatcccgctggtgctggctatgccatggggactactggcacagactccgatcgccggccagccgac gcgccgaccgttacatgacggtgaaacggtcgaactcgatgggcggtacggtgccatggtggcgctacccgagcggaccgacctgc aactgggcagtcggcgctggccggtgcaggtggaaggtgccgcctttgcctggttcgagggatcctttcggttggtgtcgctgccg actgcagccttgaccagcgaacgtcagatccggttcgatcttctaacggcgggcgagtctgtgctgagtgtcgggctcgtgttgcg taatcatctactgcgtccgcgcggagccggacgtgacgatccggccgccgatgcattgcacacctttgtgttgcaggttctcgacc gcatccgtgaggccgaaccgtccggtgccggagacgattgggatgatctcggcaccggttgggcgcggctgcgcaccgcctggctt gagcgcgatgcgcagatcgaagaagcgcgccgcgatctgatcgtcgaacatgctgaacaactcccggcccacatcaca gaaatcgctatccacccgcgtcgggtgctcaaacgcacccgcgagttgctgccgatcgatcgtatccaggaactcgacaccgcctg tctcgaatggctgatccggcagcccggcgttaccgttgccgaaaaggccggtccgcgccagcgactgctcggcatcgcgcgcgagg agcatctcgatacgctcgaaaaccgggtgctgaaagatttcctgcgtctgagcgtcgaggctgccagcgtctggcagcgggagaac cggcgttttcacaacagtgagcgcgcccggctggtcgggcgttatctcgcgctgtgccgcatgcatcatcgcgaactgtgcgcggc tggcatcggtgaccccatgcccccggtcgctccgaatttcgtgctgcaacaagattcccgctaccgcgtgatctggcgcgcgtacc gcgaactgttgagcgctgagcagcgtatggacgatctctggcgctggcagtgtcggttgtggagcgacttcgctcggcttgtcgtg gtgatgggggtgcaagagttgtgcgacaagccgagtgcgctctcgcccctcttcgtgcgcagggaacaggcaagcggacgctggtc ggacacgctcggcctgctcggtgtattcctgatcgacctgaacggcaggtcgtatgtggcggaagtctgtgatgcgagccagttgc cccgaaacgacacgtcacgagcgaagctggcgtcctggcagtatgcactcggttgcacagcactcatccgcctcatcgatttgtgg agtgggcattgtgcgagcctgtgtgtctgggccatgcatagcgctacagccgagacgcttccgttgaccgagttggtcgcttcagc cgatgaagccctgagtacggccatcagacaggaaggtctgcgcaacggcgagcaacttcgggcacgtggactggtgatccgctcgg cgccgccgggaaagaccgagtacgccacccaggctgggcaggtctacggactgacgctggccatcgggtcggaacatatccgcgag gcgcttggcgagtgcactttgatcctgcaggacagtctggagcgcctgtttgcatgagcggagtgcacggcattgatctcaatggt gtgctcgattgcgtggtgcgcctcgatcgggcaccgcgaccagcgccgacaccgccggtgatcgtctccggttcaccacagggcct gctgacgggagccgcggcactgcaatcgccctgcggccgacctggcatggaagccgaggaaggtatccgcctgccagtgctggccc tgctgcacgcgctcagtggtgaggggcggcacgatacgcacgatacggccgtgctgctcggccgacacctgcgtagcctgttgtcc gatgatacgcatgctgctgtcgtcgcagtgcctgacacacctggtttcgacgaacgagctcgcacccggctgctggatggcgcgct acgcgccgggctcgatctgcacctactatggcgcccggtcgcagcgttgcttggttggggcgaaacactgggaaacggcgaactcc aagccctgcacggccggacggcctgcgtcgtgcagttgttgccggacggcatctcgattggcgatttcggcctcgaatgcgtggtg cagggtggccggccgacgttagtaccggtgcgccggcgcgacggcgaacgtcaattttactcgtggagcggtggtggactggttgc actgctcgcgcgcgaagctggaaccgacgaagccagtctgtgggtcggaccgtgggtatggaaggtcttgcttgggcagcctgcag aacgcgaggtgctggccgacccgcatgcaccgggtggttggcgactcgccagcggtccttccacactgtgcggcgccttagccgcg gagttgcgcacaggcctgcgtatagcactcggagccgcgcgctcggcactgcgcaatgcagcggtcaUctgatcgaggggcctatc gccgatgcaccgcUtcggacgcaatgcagccaacactcgcgctacgccagatcgtggctgcggaactgaccgtggtgctcggcccg acggtgtccgcaagactcgtcgccatgccgctcgccgatgctctaattgccagaggggccgctatctgtgctgcgcgtcaagcggc gcggcagatcacgtattacgatttcctgccgatgctcgaaatcaatgtgctgcaggccggagagcatgcgttcgttgaactcatcg gtcgcgaagagcgcatcgcggggggcatgagttacacgaatacgttggccgatcgcttcaccgttgccgcaagcacgcgctcgctc gagttctacctgctgaaagaggacgaagcaggcgctcgtcacagcgaaacggtgctgccggtaccgccggcagccgacgtggaaat cagcctgcacgtcacgcagacacccgctcaaggctacgcacgcgtggagatactctcggccgtccggggcgcgctcggtgaagcac cgatcctgctcgattggtcagcgatgacagagattgaaggctcgcgcgaggatattctgcgcgaactcgaattcgaggggctcggc tatccggacatcgtaccgcaacgtgcacatcacctgctctgggattaccagcgcagtgacggcatgactatcgctgccgcgatgcg ggccttcaattgtaagcctatcctaagttcaccgcgcaaccagtacaatcaattggttaaacaaacgcgcgcactcgtcgggctgc gcagcaatctgttttttctgacaaagggcaccagttctgatcgtagtgcttacaccgccgtcgattcggatggccaattgccacct ggaatcgcgccgacaatccaacaggaattcgaaaactttcgagtgcggctcgacacggattttgccgcaatcaccagcgtccgtaa tcgacaagatatcgcaacccggcgtgaattggcgcgactgggcgcctgcttgtatgcagcgtgtcctaatgcaattgttcattact tccaacgcattgtcgcacgtagcgccgatgacctgacactggtgttgcatgccggcaaagtgctgagcaccgaaccagatcttgac agtcttttccattattgcgcgtctcgctacgatgaagccatccgcgctgtcaagagactgtcggtccacgtggtacgcgcggcagg cgatgctttggcttatcatgaaaaagctggaggcattcttgataaccgaagcgctgacaagttggctgaagctgcgctcctattgc taaaggaggaaatccaggcacataattacaaaatacgattccgtgccgccgcgcgactcggcctatttctgttacgccaccggcag cggcggcgcgatttcctgcatccgagtagcgctgacacggctaatcgtcggcgtgccaaagagttcgatgccctgttgatccaggc tatcgcatcgaagcgccttaaccaagatctggaaaatgccttggaagaaatccgtgcacaaatccgatatcgcggtacaaatgcga tcgttgatatcgatcctgacgaagatggcgagattaacgagaacgaagtggagtagaggctgttgggcacccgctcgccatccctg tcgagcatcccggcttcgcgggcgcccatcccgtgcctttacggcgtgttcaacggccccggttcgccctgcgtatcgggctcctg ctacgcccgtcgagacgcgctgcgcagactcgacgctcaaatggcttgacgccattctccctggctacc(SEQ ID NO: 52) 56 pLG058 tcgcgatcaaggggtgagcaggggataaacgcaaagacattgaagttgaggagaatttagttgccttacctgcgaaaaatctgagc gatcttgcattaaagattttctatctcaggccgatgctcataagagcatttcctgaatttcaccctttttttgctcgccatccctc tgcgaataaggacaccgcgccagatatgtcactcatcacccatacattagaaaacctcacaaaagccttgcgtactgcgttgcgtg tctcaattgaatgcaatgagcgcagcgaaaatacccataaaattttaaacgtgttacgtcaggttgagctgacgctgatgctgcat caacaacctatctatgccattgccggtacgcagggagcgggtaaaaccactctggcaaaaagcctgctgggcattgacgatagctg gcttgaggcgaatccgggacggggcgagcagataccgttatttattgagcaacggcacgatgttcagggtgattatccgcaattta tttatgtctgtgctcaccacaaaaccggtgaaatttttgacagccagccgcgcagtggcgatgagctgaaacagatgctgcgtgac tggtcgcaaatggtgaatcaggagatagaagggggcaaaatcctctatccgaaattaatcattaataagtcagacagttttattga tgaagagatggtctgggcgctgttgcccggctacgagatcagcaacagccagaatcatcgctggcagggcatgatgcggcatgtca tggtcaacgccagaggcgtgttgctggtcactgacccgacgttaatggcaaatacgaaccagagcctgctggtgaacgatctgcgc agtgtgttcgccgatcgttctccggtgattgtcgtgaccaaaacagaaagcctgaacgatgcggagaaggccgaggtaaaagcgag cgctgccgcactttttcatgagacctcctcaccggtggtcgctgccggtgtcgataatcaagcgcagtggataggtgagctccgca ctgcatttgctgagggtatccataatagcgccgcgtcagaagcggccgcgatcgaacgtttgatgactctggtcaatgacgatgtt gcggatattattgataacctgaatctgctgtacgcggagcaggacagtggcgaggaacgtaccgtcgctattcttgaagcgttcga taaagcagccgagcgctatgaacagcaactgcgtaaagccatcaaacgagaaactgacgggcatcggcaaaaagccactgaatctt gccagcgccgttatcaggaagaagaagaagggccggtcaataatttaaaaggactcggtcgtcgtctgatgtttcagggggcggag attgatcgtgaacgcaaaaatcgggtactggacgcctggcaaacccgctttgagcagcaatctctggccgatcacaatatggtcgc gctggaaacgctcaaccgtcgtgagttgaggcattacggtctttcacaggagacgctgtcaccccaacggttgacctcgcccgcgg cgacaatgggatatttgtcggtggctgaggaggataatttttcctcgctggcccctttgcgccatctgctgggatcggctgcaaca agggatgcgccgccgcagttagaccagctttccacggtattaaaagtgctgcctgccatgacgatggaatatgcgcgcggttgggt ggcgatcaaccaggcgatgcccgcagcgtcagagctaaccagcgagttgcggccacaacaaattctcgacgcgatttttagcgcgc agagtagcatccacccggtgaaaaccgcgctgatggcgtttatcggtgccgacgccgcggacggcacgctggatggcgaagtgggc actccgcagaatgaagatagcggcgtatttacgcctgtcgcgatagcaggcaaagcgatgctggtcggtgcggcggtttatgcgtt gtatcaggtggcgggcgtggtgagtgagagtgataaagctcaggcctggtatattgaacggatgatgaaggaactggcgcaatata atgaaaacgtcatcatcgagcgttatcaggacacgatgggcgatctgcgtcagctgattgaaatcaacctcaaccgtttatttggc gtgcaggatgtcctcacgcagaaaagctatctctggttagctattcagggactcacgacggtacaaaaggaagcccggcagtatga agccagtatcaaacaatatctggcgtgatatttgccatgagcgttatcgatgggcggaaaatagctacatcaacctgctgcgtcag gttgatgccgagcggttaatccagcctcatgcagacatctcccgccagatatcggtcattgtctatggtccgacgcaggtgggaaa aacctccctgattctgaccctgctgggcgtcagggatgactgttttaaagaacttaaccagctgctgcgtggtgggcaggcattag gtcacgcgtcaacggcgcgaacttaccgttaccggatatcacgggatgatgcctggtattttagccacaaagaccagggaacaacc gcctggtcggatagcggggcggcagatattttcgccagcctgcgtgcagaggttcaggcgggcaggcgctactttgacagtatcga cgtatttattccgcaacgtttcttccatcctcagcagcggcaaaatggtttgttaatccgcgacctgccgggtattcaggctgcgg atgacaatgaaagggaatatgtgactcagcttgccagccagtttattcgttctgcggatgtgatcctgctgaccggcaaagcggat tatttaggctttctgaaacccgaggagttgggtaatgacctactggctgactggttctggcagccacatcgctacaaaattgtatt aacccggacttttagcaacagttccattcgggaaatgttgcgccgtgtttcccccgataaatcctggctgcaggcttatttgtttg agcaaatcaatacgctggaattgcaacttccggcggagatgcgtcaacacatttatccgctcgaatgcggtcactcctggcaaacc ctgattgaggggggtgacgattatgctgactattgccaacggttgcgtgagcagatattaaccgacctgcgccatcatatgttgca ggcggtccatccactttctcgtttacgtacgggatacgccttacctgaattaattatccgccaccgggacaagttgcagcagcagt acacagcgctgcacagcacgctggacaaagaacaggaatattacctgcgtaaaaaagagcagctgtcgtctgtgcagactgaatat tcccggcatctggcaaagagccagacacgactggacagattgcagcggctacgggaacggctgaataaaagacaggcgcgcaacgc gcatcaatccatcgctgtgccaccgatgggcacaagaacggtcagtgccttactgaaaatgattgctgaggcaagagaagagatgg cgcttcatccggcgttaaagcaccttcctgcccatttcgctgcgcaacagattaaccaccatgccttcacggcgattgagcaaaag ctgcatggctatcatgcggataattatctctttgccagcaactataagcatgactatcaggaaacgatcaacgcgatcaaacaaca cctgaaactgatcaccacattagccgctaatttccagcgtagtgagctggagagacacatcaaggaacatcgtcgtcgccagcaac gtttacaacaccacaccacccggcgagacaaactcctgacggcagtgaccaataagcttacgcgcatcaatacgcagcaacaggaa ttaacgcacagccatatgcgtgacgaggatcattatcagcagctgattggcgagagccgtcgctttcaggaactgatcagagtggc gaaaaatgaacgagccaccctgattgaacaacacattaggcgtacggatattggtcaggctgagcgactggcctggctactcgctg cccgtgcgttaaagaaagactacgaatatgtcagagcattaggagagtagtgcatgtcagtggaacatgacccggttattgcgcag gataatgacgagcggatgctggatgaattggtgcaggaactgtttctgaccttgctgacgcgtgagctggcgcaacagaaagcggt tatcgaaaccattaatgacaacgtctcgtatcaggctggtgagtcattaaaatcgttgaaacgggagatcaaactttccatcagca ccctgtcgaatgcgcaacagcaatatcaggaagagcaggccatcgccagggaggaatacgagaagcggctggagcagcagactcaa acatttgccagtgatgcggaaaaaaatcaccaacagtcacagcagcagatggcagcacttcggcaaggtgagcagcagctggctgc acagttaacagatttgcagcaacagcatgccacacttcatcagcgctcaggtcagatgctgaatagcattaaatggctggtggtgg ggctggggggcgtcaacctgctgctgtttgcggctgtcatcatgatgttttttctcgggcatcgataatcatccgcgcatgcaggt ttgtccggatatggtgcgcctggtgcaccatgacttttctctggcacggataaacggacgcacaggcagcgaatgacgcgccctga ataaactggcacaacttctgcattcatttcctcaggcttgtatacaaggccgcataccg (SEQ ID NO: 53) 57 pLG059 cgcatctgtaatgcaaacttattagacttaatccctataatgcaatataaatcatattgttaccttgtggctcctttatctgattg cacggatttatccctcgcgtacttattcagcatgatatagctgggtatcatgtgcctactcttaacctgaatgaaacttacaaacg ttcgtggtatccacatgctaagtgaggctgagatagcaaaatttctcatatggttgctgcccctaagatcaacaacgcactgagca tgactctctggacaaggtgccacacaccaggcgcacgtctaaaaggaaatatacatcaaatacctgattgctaagttataccaagt ggaaatcgggtatagtaggtcaaaacgaaagcgtgtcttaacactgcatattaacgatcaggaaggtcttagcatgtcaattaata tcaatacgttgcataatcttcgtcgcgcgttacttactgcgctggagctctcgattgagcacaatgaagaaacagaaaatgtcgat cacattactgatgttctgcggcaggtggagttgacagtacttttgcagcaagaatccatttacgccatcgcaggtatgcaaggggc aggtaaaacaaccttggcgaaagcgatccttggtattgatgatgaatggttagatgccaatccgggtcgtggcgaacaggtaccgc tttttatcgaacaggtggatggcgatccctccgattttccacaagttgtctatcagtgcctaaaccttaaaacaggcgaaattgct ccgcaaaagggcgagggtggggagcaacttcaaagtctgcttcgcgattggagcagtattcgtcgttatgaaaaagcgggctttaa actgctctaccctaaattgctgatcagtaaaaaaaactcgttcatcaatgagcaagtgacttgggcgctgttgccgggctatgagg tagccacaagtaaaaactatctctggcaggatatgatgcgccacgtattggttaacgcccgtggtgtcatgttcgtgaccgatccc tctctcttagccaatgacagcaaatccgcagtgctgcaagatttgcgagataacttcaaggaacgcggcccagtggtggtcatcag caaaacagagatgctcggagaacatgaaatcaaacagctcaaaaccagtgccgctgaacgtgttttccccaatgttgggatgaaaa aagaggatatcgtagctactggttctggtaataacgacatctggattgatgcactacgtgacacagtcatcaataagctcaccagc agtgcggtatctgaagcaattgcactagataacttcatgggacttatccgcgaagacgtggccgaaataatcaataatctgaagat attggcggatacacagcagcatcacgaatccatagtggatgagatcctagacgttttcgatgaatcagcctccacccatgagcaaa aattacgtgaagcgatcaaaaaggagacccgtcagcactttactgatgcgcttaagtactgtgaaaaaagctataaaagagaagag gtaggttttcaaaaaaacctcaaaattttcgcccgccgactgtcgtttcgcggcatagaagtggatgatgagcgcagtcaacgtat tatagatgcttggaatagacagtacgaaaacatcagtattcacgaacataatttcgacgcactgacgtctgtgaatacccgggtgc tgcgtgccaaggggctattgcctgtcgttgaaaatcagcaactattaccgggcagcgcagtcgggagaatggggtatctggttcag gataaacaagcagagtactcaataatggatcctgacctgatgacgggtttgtatacactgctcaaaaagccgggcggcgctcatca agcaccgccgcctaaaaaactcgctgcggcgctggagattatgcctgctttaatgctggaaaacgctcgtactaggttggcaatgc atcttgacccggcctgcacaacccaactggcagaggagatccagcctaaacaaatttttgatgcgctcttttcgagcagagaacag taccatcctattaaaacagccatgatggcgtttttgggtgctgatgcggcagatggaactgtagacggtaagagcacgccaaatac cgaggggggattcgctccgctagcgctggtaggtaaagcggcattggtagcaagcgtggcttatggcatctatcaactaacaggag ttattcgcgacagcgataaagcgcagatttattacattcgtcgtgtgatggaggaattgtcattccataacgaacagaccgttatt ggcaattataaggagatgattggcgaattgcgtgattatattgcgtataacctgaagcaaatatttggcgaaacggatgccctggc aaatcgaagcgccttgacgcttgccattaaaaatcttgttgccgcacaaaaggaagcaaaattgtatgaaactcacttccgaaaaa tcctgggctgatctttgccaggagcgttatctgtgggcggaagagagttttgtcacgtttctacaaaaatttgacgcacagaggtt gatccagtcggcagacaatgccaataggcaggtttcagtgatcctgtacggtccggcccaagtaggtaaaacctcattaatcctga ccctgctgggtattcgtgatgactgcttcaccgagctcaatactttgctacgcggcgagcaggggctgggcacaatgtccacggct cgcacctatcgctatcgcatggcgaaagatgacttctggtatttcagccatagggagtacggtgcaactcggtttagtgacaagga ggcgaaagtcatttttgcagattttcgtcaggctgtggagcagggcgagcgtgaattcgatagtgtggatgttttcctgccgcgcc gtttttttgatccgaagttacagagcagtgcccagttgctgatccgtgatttacctggaactcactcaaccaacgccaacgagcag tattatgtcaacatgcttgccagccgatatcttgcttctgccgatgtggtactgctgaccggcaaggctgatgcgttggccttcct taagccggaagagttagacaatgctctgctgaacgactggcactggcaacgccaccgctacaagattgtactgacccgtgcttatt cagatgccacactccagcgttttatcaaacaaaaacggtttgataaaaaagcaatgcggatatttttgcttcaacagattaatacc atggatctgggcttgcctgaaagcatcagtgaactgatttaccccgtggagtgcggtcattcttggctggcaatcaatgccaaaga tgacgagtttgcccgccagtgccgtgatttgcggcgagatgtattgcaagatttactcgactctctgcaccaggcatcgaacccat tatcacgcttacgttcgggatacgcgctgccacatatcattaaacagcagatagctgtcgaaaaagagctttacgagacggaaaac gcattgctgcaaaaacagctctctcggctgggggaatatgttgatatgtacgagaaacgggtcagcagtaatagagataatcacct gaggttacaagtaaagctgcaagcactattacaaaaacgtgaggacgcgttgagtacagattttcgtgaacattcgaatgcgtttc aaataatttcgcaatcatctctcggttatcttaagtctcaaatttatgcatctcgtgaaacaaataccaaacgctggaacgatctg ctggaaatctaccagcttccacttgaaagagtaccggagatgcccaatctagagcgggtcttaaaaagactaaacggctacttgtt tgagacctattttcgagagaaaacacgtcagaatgatcagtatgagatagaagaggcaggctttaaagacgcaaactgcttaacgt atattttccacgaacgaatcaaggttaagtttggtgccgaagagcgcgccttgaacaataagatagccaaaaacgagcgggcagcg tgccgactggtgcgtatcgHgaacaattgtcgaaaaaaatggtgcacacgcagtcaagactcttccagatcaagcaggagttaggc gtatcgttaactctrtattttcagagatataaagagagtaaaaacttttcgaaagtcattgtttcggcgaaaaatactcgagcgcg tgaaatcgaatgcaacgctaaaaaaccgaatattacacgcagcgagcgtctcgcttgggtgctgatgtatagagcgttaaagaatg attttgactacgtaaagtccttagatgaggagagcactaaagttgaataaaaatcttgctgtcgcggaagtgtccagcgatgagca gttactggaccaactggtgcaggagctgtttttagagcatttgcgacgtgaactgggtgtgcagaagaagagtattgacgacagta atgacaaactctttaatctcgaccgaaaatttgtcgctgaatttaaaaacgtgagcggattgcttgatacgatatccgacactctt ggcgaacagactcgtgaactgaatgatgctaaagctgatgcccaaacacattatcgttctttgctgaatagtttggcacagaaccg aacggacaccgctgctctgcaagatatactccagcaactaagtagtaagcgtcataaggaacaaggcgagcaactgcaacggatcc aggaacagttgtttcatcagagcgctgaactccaagcgcaatactccgtgttgacagaacagaatgcagtgttaaaccagcagcag gaggtccttcagaaacaacggttcactgctactctggccgaaatgcaagagcaaaacgtgacgctggcgtcacttacggaacagaa taagtcgctgcatcgacagtttctcaccttagaagatgaacaacgtgcagattttcggacaaatagtcgctggggtaagcttgccg ctggattctccatagcgaatacgcttatcctgataagcgtgaccgcactgtttatagttaagtactttctataaagaacccgcgtg cacaactcttcttcatataaaatatcttttccaacagatattgcattgaggatttcttttattgctgtttatgaaatggctaaata tcctccgacaaataagaacagtggcggatttttcatcctcgtctttttcagggag (SEQ ID NO: 54) 58 pLG060 atcagggcaaggaccgttgcccatatgtgactggttttggtgtcggctatgtggccaggctgcgtgaaagctactgatcgcttttt aatctaagtggtggatttatatgatcaatcattattgataaactcatgaagaaacctaatttatttaataaaattaaaaagtatac gattagatattgcgggtgtagatatgactcaccacattaaaggtcaaggcagacatcaggtgacgttgctctctgacgtgcttgat gattttgtcacagaagataaaaacacgttgaagagagaaaaatgaataccgcagaagactttaaccgcctctatgccgacgtttca cgcaatattcagcagacgctgactgatatcgctgcacttcatgttgaaaatgaagagggaaagcagcagctacaatcgatggtcac tcagttgcaatccctgcaggatggctttaaccagaagctcacgtggctgcaaaagcatgccgaatgggacaaatttaccctggcat tctttggcgaaaccaacgccggtaagagtacgataatcgaatcgctgcgcatcttgtttgacgaagaatcccgccgccagctgctg caaaaaaaccacaacgacctggaaaaagccgagctggaattacaggaaatctcggaacgactgcgcagcgacttagggcggatcta tagcgatgtagtggataaaatcaccgatatcagtttttccgctctgcgtctgatgcaaattctcgacaatgaaagcgccctgcgtc acaaacgggaagaggaagagagcaaggaacgcctgctggttgaaaagacggaaagccagtcgcgattgcaaattctgcaaaaacac accagcgccaaaacacgattaaccctgtgcattgccgccgtcatctcttttgtcgcaggcgcaggcgcgagcgccgccgtggtgtt caatatgatggcggggcaataggatgagtaacgcactagatcttcaggctagtaccacgtcagtacgttcgcaacgaaagtcctca ttgaatattcaggagctcctgaataaaacgctgcctcacctggttcagaccataatcaggaatgagagattaaaaaacaccctact tcaggttgatggtctcattatcggtaccggcgaggcggattttaccaaagggaatacccgctacgccttacatattgacgataaga ccttccatctgctggacgtacccggcattgaaggcaatgagtcacgctatatcagccaggtgaaggaggctatcgccgaagcgcat atggtagtgtacgttaacggtaccaacaaaaagcctgaaaccgccaccgccgaaaagatcaaatcatacctcgaatacggtacgca ggtttatccgctggttaacgtgcgtggatatgccgacgcctatgaattcgaagaagatcgccacgatctgatgcagcaaggaggcg caggagaagcgctgaagcaaaccgtcggggtactgcaaccggtgctgggctccgatgtgctgcttcccggtaactgcgttcagggg ctgctggccttctgcgggctagcctatgacgatgcgacgcaaagcaccactatccacccctcgcgcgcgcacaacctcgccacgca acagaaacgctatttccagcacttttcttctcgtcgggagatgcaggaatttagccagattgacgccattgcccgcgtcattcgcg gtaaagtcgccacttttcgcgaagatattgttgaaagcaacaaaggcaaagtgcgagagtcactgggtcagtatctacaggtacta aacacgcaactcaccaatcatcgcgcatttctaaagaaaacagagccggaatttgacaaatgctgcgtcgcctttgctaacgccat tgcagcctttgaacgccgaatcatcaataaccgccgtaaccgctggaacgactttttcaatgatctgatggaaaaaagcgacgaca ttgttgaagacgattttggtgataaagaggcgattgcccagcgtattagccagcagtttaaatcgcgtcgcgtcgaggtgaaaaaa ttaatgctccaggacactgaggagggcgttaaggccttacaggagcagatgattcaagcggtggctcgtttgttgcaagatattaa gcacattgagttccagcagcatgtcgatttcgcccacggcggtgaattcgaatttggtcgcgagatcgcgctgggttatgaccttg ggttaagggatttcggctcaatggcctttaaaatcggcagctacgccttaagcggcgccacagtcggtagcgccttcccggtgatc ggtacggccattggtgccgtagcaggcgctttagtcggcgtcgtcatgaccgttgtcggtttctttaccagcaaagcgtcgaaagt tcgcaaagcgcaggggaaagtgcgcgacaagctagaaagcgccagagataaagcgctggacggtattgatgatgaggtccgtaacc tggttgcggctatcgagaatgaactgaaaagcagcctgctgcaaaaagtgaatgccatgcatacggcattgcagcagccgatcgcc attttcgaacagcaaatcacgcaagtcacccatttaaaaaatcaactcgagaacatgccttatggaacaattcaaacagttcagta ttgagaagcaggctgccattaactcgctgctacagctgcgcggcatgctggaaacgctgggcgaaatggagatcgatgtcaacgac gatctgcaaaaaatcgcgtcggccatcacagccgttgagtccgacgtgttgcgcattgccctgttgggggctttttcggacggtaa aaccagcgttatcgccgcctggctcggcaaaatcatggaagatatgaatatctcgatggacgaatcttctgaccgtctgagcatct ataagccggaaggattacccggagaatgtgagatcgtagataccccggggctgtttggtgataaagaacgagaaatagacggcaaa caggtgatgtatgaagatctcaccaaacgttttatttccgaagcgcatctgcttttttacgttgtcgatgccactaatccgcttaa agagagtcacagcgccatcgcaaaatgggtgctacgcgatctgaataagctgtcatcgaccatcttcatcatcaacaaaatggatg aagtgactgatttaaccgatcaggcgctgtttgcagaacaggcggccatcaaaaaagagaacctaaagggcaagctacagcgcgcg gcaaacctgaatgcgctagagcttgaacagcttaatattgtttgcattgcttcaaatccaaacggtcgtggccttcccttctggtt caacaaacctgaacattacgaaagccgctcacgcatcaacgatctcaaaacagttgccgctgagattctgaaaaccaatgttcccg aagtgctgctggcgaaaactggcatggatgtggtgaaagatatcgtcacccagcgtatcaccagcgcccagctgcatctcagcaaa ctcagcacgttcgttgcgaaaaatgatgaagatacttcgcgttttacatgcgatatccagcaaagccgtaacgaggtcaaacgtct ggctggcgaaatgtttgaagaacttagtttgctggaaaagcagctgatgagccagctacgcccgttggagctggatggcattcgcc cctttatggacgacgaactgggctataacgatgagggcgtcggctttaaattacacctgcgtattaagcatattgtggatcgcttt tttgcgcaatcctccgccgtcacgcagcgactgtcggacgatattactcgtcagcttaattccagcgagagcttcttaagcggagt tggcgaaggggcatttaaatccctcggcggcgtgtttaaagggatttccaaaattagcccggagacgattaaaaccacgatttttg ctgcacgcgataccattgggcaattaacgggctatgtctacacctttaaaccgtgggaagcgaccaaactggctggcggcatcgct aagtgggctggtccggccggggccgcatttaccatcggctctgatctatgggatgcctataaagcgcatgaacgtgagcgagagct ggaagaggcgaaaaatgagttgacccggatgatcaaagatccgttcagcgatatctatagcgtcttgagttcagatgaaaagacgt tcgctttctttgccccccagattcaagagatggaaaaagtcatttgcgatctgacagaaaaaagcgacaccattcggaagagccag caaaagctaagcatactccagcagaagctcgagcagtttaaccgttcgagcgagcagcaagtgtcctgatacacaaacggcagccc gcaggccacgtttagttataaatcaaactaaacgtggccaggtgacatgccccccgttgattaacacacgttatcgtcgggtggaa aggacaacctcctacgtccgcttcacagcggacactcaggtttaacagtccagtacgtttagcttacggataaatcattttatgat gatgtggagaatgggggat (SEQ ID NO: 55) 59 pLG061 tattttgcgtagctagaacgcaatcaaatctagcagtccgctttgttcggagttcggacattatgagttggcaagtaaagtagctt gctaggaagccggatttgcacggtcggtataataagatgtaaccccttgccttcatttactcgaatgaacgtgcacattggatagg aggaaaaggaatgcaattcattaccaacggccctgatattcctgatgagcttttgcaggcgcacgaggaagggcgcgttgtgttct tctgtggagcaggcatttcctaccctgctggtttacctggtttcaaagggttggtagaactaatttaccagaggaacggaacaaca ctttcagaaattgagcgtgaggttttcgagcgtgggcaatttgacggcacattagatttgctggaacggcgcttaccagggcagcg tatagccgtccgacgcgcgttggaaaaagcccttaagccaaagctccgtcgtaggggcgctattgatactcaggcggcgctgttac gtttagcccgtagccgcgagggtgcccttcgattggtcactaccaactttgaccgtctctttcatgtggcagctaaacgtacaggc caggcttttcaggcctatgtagcgccgatgctgccaattccaaaaaacagccgctgggatggacttgtatacctgcatgggctgtt accggaaaaggcggatgatactgccctgaatcgtctggttgttaccagcggtgactttggcttggcttatctcactgagcgttggg cagctcgctttgtgagtgagttatttcgtaactatgtggtctgcttcgttggctacagcatcaacgacccggtactgcgctacatg atggatgcgcttgcagcagatcggaggctcggtgaagtcacaccacaagtatgggcactgggggagtgtgagccggggcaggagca ccggaaagccatcgagtgggaggccaaaggggtcactcctatcctttacaccgtaccggcgggctccactgatcattcagtgctgc atcaaacgttgcacgcttgggcagatacttatcgagatggtatacagggcaaaaaggctatagtcgtcaaacatgctctggcccgc ccgcaggacagcactcgtcaggacgatttcgttggtcggatgttgtgggccttgtcagataaatcaggtttaccagcaaaacgctt tgcggaactcaatcctgcaccgccgctggattggttattgaaagctttctcggacgaacgatttaaatacagcgatctgccacgct tttgtgtatctccgcatgtcgaaattgacccgaaactccgattcagtctggttcagcgtcctgcgccctatgagctggccccgcag atgtcgctggtttctggatgtgtcagtgctagcaaatgggatgacgtaatgtcccatatagcccgttggctagttcgttatctggg cgaccctaggttgatcatatggattgctgaacgcggcggacaaatacacgaccgttggatgtttctgattgagagcgaactagatc gcttagcagcactgatgcgggagcgtaagacttctgagttagatgaaattctcttgcattcccccctggctattcctggtccacct atgtctactttatggcggcttctgcttagtggtcgtgtgaaatcgccattgcagaacctggatttgtatcgttggcaaaaccgctt aaagaatgaaggcttgacgactacattgcgcttggagttacgcgggttgctttctcccaaggttatgttgaggcggccgtttcgct atagtgaagacgattcgagcagcactgatgaacccttgcgaatcaagcaattggtggattgggagctggtgctgactgctgattac gtacgttcaaccctgttcgaccttgctgacgagtcatggaaatcgtccttgccatacctgttggaagattttcagcagttgttgcg tgatgcactggacttgttgcgggagttgggagagtccgacgatcgtcacgaccgctcgcattgggatttgccgtccatcactccgc actggcagaaccgggggttccgcgattgggtgagcctgattgaattacttcgggattcatggttagccgttcgagccaaagacagc gatcaggcctcgcgcattgctcagaattggtttgagttgccatatcccaccttcaaacgtctggcactgtttgccgcaagccaaga caactgcataccacctgagcggtgggttaattggttgttagaggacggttcatggtggttgtgggccacggatactcggcgagagg tattcagactgtttgttttgcagggacgacatctgacaggaattgcacaagagcgtctggaaactgctatcttggcagggcctccg cgcgagatgtacgaggataatttggaagcagacaggtggcattatttggtggctcattccgtctggttgtgtctagcgaagctcag gggagcgggccttgttttgggagagtctgcggctacacgtttgacggaaatatccacagcatacccaaaatggcaactggcaacca acgagcgtgatgaattctctcactggatgagcggaaccggtgatccaggcttcgaggagagtatagatgtcgacattgcgccccgt aagtggcaggaattagtgcaatggctcgcaaagcctatgccagaaagactgcctttctatgaggacacttggagtgatgtttgccg tacgcgcttttttcacagtctgtatgcgttacgtaaactatcacaagatgatgtgtggcctgttggtcggtggcgtgaagctctgc agacttgggctgaaccagggatgattttgcgttcgtggcggtacgccgcaccgttggtgcttgacatgcctgacgcagtacttcag gagatttcccacgctgtcacttggtggatggaggaggcttcgaagaccatcctctgccacgaggagattctactggccctttgtcg tcgggttctgatgatagaaacaagcccagagtctagcaccattcgaaacggaattgagacctatgatcctgtttctacggcgatca atcatcccattgggcatgtcacgcaatcactgatcaccctatggttcaaacagaacccgaatgacaatgatttgcttcctgttgaa ttgaaaacacttttcaccaaattgtgtaatgtacagatagagctattccgccatggtcgggtgttgctggggtcgcggctgatcgc attttttcgcgtagatcgaccttggaccgaacagtatctattgcccttgtttgcttggagtaatcccgtcgaagcaaaagctgtgt gggaaggcttcctctggtcgccacgcctgtatgaaccgttgctgatagctttcaagtcagattttttggagagcgccaatcactat tctgatcttggcgagcaccggcagcaattcgctattttcctgacttatgcagctctgggccctaccgagggatataccgtggagga gttccgaacggcaattagtgctcttccacaagaaggtctggaggtagccgcgcaggcgttataccaggcacttgaaggtgcgggcg atcagcgcgaggagtattggaaaaatcgtgtccagccattttggcaacaggtttggccaaagtcccgcaacttggccaccccacgc atatccgaatcgttgactcgtatggtgattgctgcccgaggtgaatttccggcggctttggcagtggtgcaggactggctgcaacc gctcgaacaccttagctacgacgttcgccttttgctagaatcagatatttgcagccgatatcctgcggacgctctatccctgctga atgccgtgattgccgaacaacactgggggcctcgagagttggggcaatgcttgcttcaaattgttcaagctgctccacaactggag caagatgttcgttatcagcgattaaatgaatattctcgaaggcgcagcgtgtgaaagtgacaggcgttggacagtgcgaactgtgg agcctaacaaggtaaagacactctaactgataatgctgcgccgctcgtgcaatgcaatacagtttttatctagcggtgaattatgg tgttaaaagttagcccctgacacagggtgggtagttggctctgtgtcattgatgggtattagttctgatatgagctaataccca  (SEQ ID NO: 56)  60 pLG062 gtaagacaagggttgagcaggctactaatcgttacacaggctaacaaaggcatattaagacgatttgtagcgctgtaaccttgaaa attatgtacaagcgccccgcattacgtcgttttaaaggccatcggattcaggcccgacgcggcttcacgcgattataaccgtgaaa aatcccccccgcatagaacctgaattatccccgccgccgcgcagaactgacagcgcttcagaaccgttaaccctctcagaaatccc gcttttttactgtaaaaaaccatgcataaggtgcatggttttgcatgcgtttcaccgacactgaatcccccgccagcgccagcagt agcgtgccctgaggccgttaatgcacccgtattaaaagcgccctgttaagcgagcaggcggggcggggcgagcattgcgcgtcggt gttaccaattctatatggacattgagcaattcaaatataataaaggttgggtatatttcgtcctcaacgatgtcaaaaactgcaaa agcgtattataattcagatcattttcagaccacctattttaatcatgcatgcaaaatggaatatgtgatgacaaataaaaacaaaa tcaaaccattattaaataatatatccgctcgcctttgggatggtcgtgcagctatattgataggagctgggttcagtcggaatgca aagccattaacaagcaaggcaagaaagtttccaatgtggaacgacttaggtgacattttttatgaaagtgtttactgcaaaaaaaa cgacaatagatattcaaatgtattgaagctaggagatgaagttcaggctgcatttggtagagcgacacttgataaattaatcatgg atcatgttccagataaagaatatgaaccatccaaattacatgtttcccttctttccttgccgtggattgatgtttttacgactaat tatgatacattacttgagcgagcaagtgttaatgtcgactccagaaaatatgacattgtccttaataaaaatgatttaatgaatgc tgaaagaccaagaattataaaactgcatggtagcttcccatcagaaaggcccttcatagttacggaggaagattacagaaagtatc ctttagaaaattctccttttgtgaataccgttcaacaatcattgattgagaatactctatgtctgataggattttcgggtgacgat cctaacttcttaaattggattggttggataagagataatcttggcacagaaaattcacccaaaatatacttgatcggtcttttttc atttaatgaagcacaacgtaagcttttagaaaaaagaaatatttccattgttgatttaagttttctaggtgattttggcaaggatc attatctagcacaccaacgctttatccaattcttatacgaatcaaaaaatcgagacaacctaatagagtggccaatagaaaccaat tatgacagaattgtttttaatgatggcattgaattaaaaactgagaaaattaaaaagtgtatcttagaatgggctcagtcaagaca atcatacccgaactggcttattttgccggaatcaaacagaagtaatttatggcaaaacactatagattggttatctgttgctaatt atgatgtcgcttgggatggttctgatgatcttgattttggatatgaaattacatggcgactaaataaagctttgctaccaattttc aatgatacatcagaattcttatttaagttgattgaaaaatatgagatcaattacgtttcggggataaataataaaatcattgactt tgatgaaaaatactctcatataaccctcagtttaatgagattctgtcgacaagaaaaccttattgataaatggaagaatctaaacg atttattaattcaaaatcttgatcgattaacaccagaggtaaaatctgattattattatgaaaatatattattttcatacttcaat ttaaacttcgatgaagccagaaacaaactctccaactgggaaacgaataaactcctcccccatcatgaaataaaaagagcaggatt acttgccgaatttggaatgcttgatgaagcaatcaatcttcttgaagaaactttatctacgattcgaagaaacagtttgctttcat ctagaaacattgactattccagtgaatctcaagaagcatatggaatctatattttgcgaatgtttaaacggagtttgcgtttagat agcaaagatgacgattattcatctgagtataactcgcggttggctacattatcacaatatcgcagcgatcctgaaaacgaaataaa atacctagaaattaaactagagtcactaccaggtaccttcaagaataccaatgacacggatttcgatcttaacaaaagaacggtga ccacttatttaggaggaagcccaacagaagtgaggtcattagatgcttttagtttctttctactggcagaggaacttggcctccct ttccacataccaggaatgaacatttttagtggaatagttgagaatgcagctcgacatatttatcaatactctccagagtgggctat tttttcaatatttagaacatttaacaaggataaggccaagagtctattcaatcgaaatagaatttcgtctcttgagcgaaaaaagg ttgaagatttatttgatggatactacaaaaaatatgagcaaattatcacaaaaaaaatagaagatagattaaacgataaacttgag atagaaatttctacgctatcaatcattcctgaaattctttcccggctagttacaaaagtatcatttaataaaaagaaagacattat tcaccttttgcttaaactgtttaactcggataattttcatcaatacatggagactaaagatctattaaagcgcactatttccaatt tgagcgacttacaaaagatctcactaatagatattttcattgatttcccctccgcgcctcccaatacccaattacatatgggtcaa agatacaacttccttactccatttgaatgtctattaggggttacaataacccccccaaaagaaaactctaaaaaaatcgcatctgc aaaattaaaaaaagatataaacgatttaaaaagtgataatttagacttgaggaaagctgtatcacaaaagctcataacattatata acctagaaatgcttaacaaatctgacacgactaaacttataaaaaacctttggtcaaagcgtgataactttggattcccaataggc agtggttactataaatttttctttataaacaaccttaacccagataatgaaaatatagccgacaaattcatttctataattaaaac atacaaatttcctgtgcaagaaggaaaaagagttagtattacaggtgggttagatgagtattgtactgaactcaatggagcgctac accatataagtcttccagagaaaaccctatctgaaataatttcaaaaatacatgactggtatgtcaaggatcgggcctggcttgaa aaaagagatgatttagccaaggagttcactcttagattcagaaatatcacaaatatcataacgacaattttagaacaccataagga caaattacatgctgaatctataaatgaaatatcaagcctactagataaaatgaaagaagacaagatacctgtaaactcagcagtaa caatgctttgtctgaaaaataaaagcacttacctcgagagaataaaagatatagagaatggactatatagctttaataaagatgat gttattgaagctatcaactcaacttatgtctttattagaaacaatgaatttccactaaccatcattcaagctatcagcgataaaat cgcatgggatagaaaccctcgccttcctgattgctacaatttaattgcatatataattaactcgtgtgaatttactcttccagatt atttaatagagaaaatccttcgagggctggcatatcaaataaacattgatgatagagattttgttgataacaatgaatatttgaat caccttgagaaaaaacttagtgcaacaaagctggctgcttctatgtttagaaaaaatgaaacactaggtattgaccaaccttctat cattcaagagtggaaaaacatgtgcaactctagaaatgagttcgatgaaattaggaatgaatggaacaacaatatataaataaagg aagaacacccaatttatattgggtgttctgttcacgaaacccttttaccataatcgaatggcaatataaattgagattgaaattta ttctcatctaattaatcagcccaccattg (SEQ ID NO: 57) 61 pLG063 actagctaagcaataagggcgatcggctctcccatagatcgaggccgaatgatgttagcaatgttcactcttggctggaatctgcc agaaatcgaggtcatatggtctgctttgagtgaggagcgcaaatggataaagccctcatgagttctttttcaatgacctaactttt gagaggcactgggttagatcatgtttcatgtttgcaatacaatatatatttaaacttaggtttataacttaaatgttagttcctga tctaaaccagattattaatcactcctagagtgaaatgagttaagccaagagttgataaaattaacagttttttttacaatatctgg atgtttgctagcgaacaggcatctaaaataactatgctgagctaaacttacaattcaaattgtaccgaggataaaatgcaagtaca acatcatactgaaccaaacttgaagaatgagattgtggctttatttaaggcttctcaattgatacctttttttggcagtggattta ctagagatattagagcaaaaaatggtaaagttcctgatgctattaaatttacggagttgattaggaatatagcggcagaaaaagaa gggttaacacaaacagaaatagatgaaattctaagaatcagccagcttaaaaaagcgtttggacttctaaatatggaggaatatat acccaaacgaaaatcgaaggcattattaggtaacattttttcagagtgtaaactctctgatcacgaaaagacaaaaataataaatt tagattggcctcatattttcacgtttaatattgacgatgctatagaaaacgttaataggaaatacaaaattctgcatccaaatcga gcagttcagagagaatttatatctgctaataagtgtctattcaaaattcatggcgatattactgaatttattaaatacgaagatca aaatctgatatttacttggcgtgaatatgcacacagtatagaagaaaataaatccatgctatcctttttatctgaggaagccaaaa actcagctttccttttcataggttgcagtcttgatggagagcttgatttaatgcatttatcaagaagcacaccatttaagaaatca atttatttgaagaaaggatatttaaatttagaagaaaaaatagctctttcggagtacggcatcgaaaaagtaattacctttgacac ttacgatcagatatatcaatggttaaataacacacttcagaatgttgagcgaaaatcccccacaagaagtttcgaactcgatgact ccaagttaatgaaagaagaggctataaatttattcgctaatggaggccctgtaactaaaatagtggataataaaagaatcctgcga aattctataactttttctcaacgagatgtctgtgatgatgcaattaaagcactacgtaatcatgactatatcctaattacaggtcg acgtttcagcggaaaatctgtacttttatttcaaattattgaggcaaaaaaagaatataatgcctcttattactcttcgactgaca cattcgatccttccattaaaaactcattgataaaattcgagaatcatatattcgttttcgactctaatttctttaatgcacaaagc attgatgaaattttaaccacaagggtgcatcctagtaacaaagttgttttatgctcgagttttggtgacgcagagttatatagatt caagttaaaggataaaaagatattacataccgaaattcagattaaaaataacttgattaatgaagaaggtaactatctcaatgata agctttcttttgaggggctaccactttataaatcttcagaaacgttgttgaattttgcttatcgatactatagcgagtataaaaat ttagactaagtggttctaatttatttaataagcaatttgatgaagattcaatgtttgttttgattttaattgcagcttttaataaa gccacatatggtcatatcaacagtcacaataaatattttgatattcagaattttatttcgcaaaatgatagattatttgaattgga gtcaactaacacagatccaagtggagttataatctgcaattcaccatcctggcttttaagagttatcagtgagtatattgataaga atcctgcatcttataaaacagtatctgatttaataatatctcttgcgtcaaaaggatttcttgcagcatcaaggaaccttataagc tttgataaactaaatgaacttgggaatggaaaaaatgtccataaatttatcaggggtatatataaggaaattgcacatacctatcg tgaagatatgcactactggttacaaagggctaagtcagaattaatatcggcacacacaattgatgacctcgtcgaaggaatgagtt atgcaagcaaagtaagactcgatagtgccgagtttaaaaatcaaacttattacagtgccacattagtattagcgcagttgtctgca agggctctatctataaataatgataaaatatatgcgctgagcttctttgaaagtagcctagaatccatccggaattataataataa ctcaaggcacataaacaaaatgatggataaaaatgatggtggctttagatatgcaatacaatatcttaaggataatccattaatag aactccttcctcgtaaggacgaagttaatgaattaattaacttctatgagagtcgtaagaaataatcatccttaaattaataaatg gcaagtaactcattcccttgtcatttattaaactcttaagagccttatcccgaaaagtattaatctgagctaataagattgttttt cagctatgtcattattttattgccaatatatttacacttaagcattgacaggtagcggatagttatttttggcttgtaaataagcc ttttaataatagaactgtaagacaatcgctctgattttttgaaatttatctcaatgttaaattcttccgcttttggcacaaacggg ctagagcagacagatttaatgagataagggtatagatgaattctccatacccttgaacgattacttcccagttgatttgcttggtt tcagtcctggggtattaccgggtgtatccttattatcacgtctgcgttgatcgggttttcctgttgattttgcaattggttttgga ccaggtttaagccccataatcgtactccttagccatgtcagaggttattcctcagtgtggatataaggggagcggtaagaattatc aagcttggatgggcggtgaaaaatgactacttgactattatgtgagcaatgtcagcttttgacatttagaggccagcccattactg aagtaagccaaaaatgagtcgcgatgagccctcaacaatgagggccacctcggagattg (SEQ ID NO: 58) 62 pLG064 gacagcttccagggtatcgtggacgcgtcatgcaaagagatggggatgagggattttaatattctaccccttgtaccccatgccag tggtcgacctcataaatcattgattttaaaagcctcacttagggcgctcgctgccaccgatgccccacgatgcctgacgatcttca acgactccccgcaaaagtccctatgcctcggaaaagccgccaaccccaacaacaccacctaacaacaagaaacaggacctcgtgcc gagcttgttagcgcgactgactagccgtccgaaagcaaaaacaccgcgagccaaacaaggcaatttcttgcccccctaaggaacca cctgaggattgaacaccagcgcagcttactgtatataaaaacagttaaagtcctgttctcaggctgcatctggatcacacagccgc cgttactcggaaacacggcggattagcgcgcacgctcaggccctccagccctaacggaatatgaatatccagaaaatcaaacacat atcagcctcacgcagcgcatagcgccctgccagaacacagcaggaagtcattgcgtttgcgttcctggcaatccatcattcacggt tagggcccctataagacctgcagaagcagcgcgccatgggcagacccggcaaaagcccccaaacgggtgtggagaagctttatgga gaaggaaatcccccacgaaggattcacaggctctagtaaagagccgctccagacgctccttccctttaatatcgatgaacccgggc aggagcccatgaaaatccaagatttccccccactccccgcctccgaacagccgttgatgtttgcagacttgtttgcaggctgtggt ggcctgtccctcggtctctcactttcaggcatgaacggcgtgtttgccatcgaacgcgacaagatggctttctcgaccctatccgc caacttgcttgaagggcggaaggtgccggctccgcagttttcatggccctcatggctaggcaagaaagcctgggcaatcgacgagg ttctcgaaaagcacccgattgagctcagtcagctaaagggcaagatccatgtcttggcaggaggaccaccctgccaaggtttcagc tttgcaggaaaaaggaatgaatccgacccccgcaacaagctgttcgagaagtacgtcgaaatggtccaggccatccgaccatcggc ccttgtcctggaaaatgtccctggaatgaaggtggcgcacgccacaaagaaatggaagcaactaggtatctcgatcaagccccagt cctactacgacaagctggtagagagtctggacaggatcggataccacgtccagggcaatatcgtcgactcctctcgcttcggggta cctcagaagcgcccacgcctgatagtaattgggctcagaaaggacctggcccagcacctcgaaggcggggtagcccgagcctttgt gctgctagaggaagcccggctcaagcagctacaagagttcgaccttcccgaggccatccatgccgaggatgccatctcggatatgg agataggtcacgcgggaacgaggccctgcaatgaccctgactcccctaggaaattcgaagagattgcctataccggccctcgaacg gcgttccaaaggctcatgcatcgaggctgtgatggcaccatcgatagcttgcgcctcgccaggcacaagccagagataaaggctag gttccaggcgatcatcgacgaccccaactgtgccaagggcgtacggatgaacgccgagatacgccaagcatatggactcaagaaac accgcatctacccaatgcaggccagcgctccggctcccactatcacgacactgccggacgatgtcctccactacaaggagcccagg atactgaccgttcgggagtctgctcgactgcagtcattcccggactggttccagttccgaggaaaattcaccactggcggtagcca acggacgaaggagtgcccgcgctacacccaggtgggcaacgcggtaccaccttatttggcacgcgccgtcggcttggctatcaagg caatgttggatgaggccgtgatgctcgccggccaacaggcagagcgagaacaagaagagaaaatgatagccatcgcttgaacacat aggagtcgaggggaatggatagctcccaactggaaggggcgcaatacccggccgcgcttgtcgactgggccggccatcactcagga ggcgtaaaaaggctgctggataaaaatagcggccagcctaacaagcagctgctacggacgaaccttttgtcccgtctccaggcctg ggctaacaggcttcccaccgagacctcagctgtccccaggattgtcctgcttgtgggtggtcccgggaatgggaagacagaggcaa tcgagtgcaccatccgctggctcgacgagagcctcggctgcgatggccggttggtcgaggaactctcgaaagccttccatccctca accggctccgcagtcccccggctggccagggtagatgccggcagccttgccaagctagatagcagactgagcctcgacattgtcca ggatgcctctgctaccgccgggcatgagggaagcaccgcccccgtccttcttatagaggagcttgccaggctactggatggacctc cgacccaagcctatctctgctgtgtcaatcgtggtgtcctcgatgatgccctgatccacgcaatagacaacaatctggaacaagca cgaactcttctcgaggcggttacccgggctgtaagcctggcgtacaacgcgccttcatgctggcccctcgagggtttcccatccat tgcagtctggccgatggatgccgagtcgctcttggtaaagccggacgacgagcccgtagcccctgccgagatactcctaggccaag ccactgctcccgatatgtggccagcgaaaggggaatgcccagcaggcgacaaatgccctttctgcgccagccaggccatcctcgcg cgggatgagaacagggcatccttgctgaagatattgcgctggtatgagctcgccagtggcaagcgttggagtttccgggacctgtt ctccctcacctcgtacttgctagcaggccaccatcctgtagtccacgatccctcagggactccccaccagtccactccttgccaat gggctgcgaaccttgtcgacctcgaccaaaaggccctaacggcgaaaaggcatggcaagcagtcgctaactgccattttccacctg tcgacttcgagctaccaacatgcgctcttccatcgctgggacaaggacgcagctacctcgctccgccgcgacctcaaggatcttgg cctcgagaaggaactcgagatggaggaagggcgaaccctaatggggcttgtctatttcctttcggagcgcaaaagccactatctcc cagcgaccatcgcccctctgctggaggggctggtcgaaacgctagatccagccttcgcaagcccagacggagaagttgcagtcagc agtcgaaacacaatagtcctcggcgacttggatatgcgtttcagtcggtccctggccggaggtattgaattcgttcgtaagtacca ggtgctatcgccaaacgagctcgatttactccggcgcctatccgcatcagacgccatgctttcgttaccgagcatacggcgcaaga ggccggtggccgccagccgagtccagcacgtcctccgtgatttcgcatgtcgcctagtacgcagaagcatatgcacccggacggcc atcgtggcggacgctcccattctcgaggcattccagcaggtcgtcgaggacagcgacaagcaccatcacctcttcaaggtggtaag gcaagtaaaggaattgctgaacactgggaaggagttcgaggtgtcactaaccactacctttggccaaccactcccccctcgacaac gccaggcaacgctggtcgtcccgcagagcccggtccggatgtccccccagaacaacaagggacgccctcacccaccgatttgctat ctccatgtcggccaagggcaatcagtccagccagtcccactgacctacgaccttttcaaagccgtgaaggaactggaaagagggct ctcacctgcatcccttccacgcacagtcgttgcactgctggacacgactaaggcccggctttccggcccgattgtccgcgaccatg aactactcgatgatgcccggatccgcatcggcgcagatggcacggtggtcggccgctcgtggaatggttttgctgaaagccgggag gacgacgtatgagccttgcggatttcaagcagaccccgtggagcaaatcacatccgaactaccagaagtcggccctggcaatcagc cctgcccctgagtatgcgagctcggaagtcctgcttgcctcgctctaccgaaccataggcttcgcaacagccagcgagggcggcgt gccgcaggccgggcgagatctagacaagcgtatccagaaactccgcgagaaacgccaatccccaccaacaggagcggtagtcggtg tagaggcttggaatactgtgcttcacgggatcctggagagcccgaagcttcccaaccagtcgtccaagcgtttcctccaggtaacg cccatcgtacccggggccgcactcttctccgggtctgcccgtctgagcagcaactcgtggcccgcaggcagcttgattcgccgcat ggtctgcctgggatcgatggatggggagacggcgcaacgactttggcaacgcctcttcgctgcattgaacgtggacgacgaggacg atgtcttcgcacgctggcttgaccaagagacatcggcgtggaacccgggagcaagcaactgggcactctcgccaatacccgcggac gagatggtcacgttggagacggcagatttcctggggatcccctttctccccgcccggcgatttaccaaggacctacaggccatcat gcaggccaagggttcaatgacccgccggcagtggactagccttctcgaggcattgcttcgcctggcagccgcatcccacgtgacgt ggctgtgcgacgtccacgccaggacttggagctgcctgtgggccgcactaacggatggcattgctccttccagtgaactggaagca agacgggcgctgttcccggaagccccgcagtacatgacgtacgggggaaaagccctccaaggcatcaaggacaaggtgtctagcta cctaaatgcccggctgggaatcaatgccctcctctggtctctggcgcagataggagctccctattctggcaacctctcctcgagcg ccggaattgctgcactttgccagcatattcgtcagcacaaggccgagcttactcgcctaggcacgcttgagacgattgccgatgtg cgcgagcaagaagcccgtgcgcttctttgcaagaaaggcatcggctctaacctgctggagtttgcgcggcacgtccttgggcaacg ccaggctgcagtcccattgctgagggggtacgaccagggatacatcctgaagaagaaaggcagcagcccgtccagcccatgggttg tctccctcggccccgtcgccgtgcttgccttggtccactgcgcccttgcaggaatgggcggtccccgctcggtccaccggcttgga cagcacctagaggcttatggcatggccgtggacaagcatgacattggcaggaacgacctgggccaccagttgcgaatgctcggcct agtgctagatagccccgatgccgaaagtggcatgctgctactccccccgttccccataaaccaagccagccagggcccggaacatg aatagacttgcacactggcttgccgccactgtccacgagaaagtcaggggctcgacacaagggttcggaggtaccagcctagaata tcggcttatcttccgcggcccacccctcgagctactcgaaccggcctacgacgagctggcccgcaacggagggatccaggtgccaa gcggggcagacggaggactggtgaccctgccggtactgctccagtatccagccggccagctgcagggacccaggccacgcatcgga gcatccggtaagtgtgacaacgaccacttgcttgatatacgcaacgaccctgccaaccctagctttattgccctggtcccgccggg actgcacaacaacctctcgatcgagtcaaccaccgacgaattcggattgggggcagccaccagcacggggcatgcatccttcgaac aatggtgggaggatggctttgtccagcaagcagtcaacgaggcgttgatcgctgccggcataacggacgcccagagggatgacgcc aggggcctggtccgcgcaaccgcagcctcggtcgacgaggtggatccagacaagggaggtcatcgcgcggcctggcgcctactctc gcgcatctactcgatagcaaacgtgaatcaagggttgcctgcaggaacagcgctatcactggcatgtggtcttcccccaatgaagg agggaggaatttccgccaagactcagctttcggtcctgggaaaaatcgccgacgagcttgcggacggtttcaagactggcatcgag cgcctggcacaaggcgtccaacaaggggttgcgcaagcgctgcgcgaactgctttcccatctccactcgaattgcgacgtacctac ggccttcgagcgtgccacagcggctttctacctgcccagtgccgatattgaactggcgcctcctccatcctggtggaccacgctca ccaccgagcagtggacggaactacttgccgacgagcctgacgaggtcgtcggcgagctaacgatccggtgtaccaatagtttgatc cctatggggaaaggcttgccggccgtagtacgggacaaagtcgagctattgatttccacaagcgaagagagccaaccaaaggagct cctgttgacaggcggatcctacggcaaggttccgacgtcattgccagcgggccctaatgggactaccagccacattgacctatttc cctcctcccacaaagcgccaatgagctacaaggtttccgcggacggctgcaagcctgcgagcgtccgggtcatctccctcgcgagc tggaagcccggaatactcgttacctgcaggcttgcgacaaagctctcgccaccgaggaagccccgcaagaactcagctgcgatgga ctgggaaacatccctgtcgctgccgggctccggtcgttatgagctccagctccaccttgctccgggggcgagcattggaaaggtag aaggcttgccggacgatgccaccgaattcgaggagcagcgggagacaatcgaaccacggcaagttggggaatacgagtatctaata gaggtcgaggctgatggcaagtaccagctggacatcgcctttactgaagccggcgagcaagttccgaaggtctgccgggtatacct gacctgcgaagaggcaaaggaggaaggttgcaggagcgaattcgagcggctcatcaagctcaaccgacggcatctcgagaagttcg ataccaaggctgttgtccatcttgaccggaacgcacgctcctccagcctgcagtcgtgggtgctggaggatcagaacgtatccaat tccttcaggccactggtgatcgcggacgactatgcgtcccggtgggcccctcctgactgggacgccccgcacggccctgtactctc gaacgggcgtttccttcatgacccccgccccgaggccacgagcttccaacctcccaagggcttcatcgaggctcggcaggggatcg cccggtacatacgtggtagcgacgaccaatcggggctccttgagtcagcgccgcttggtgcctggctatccgaagaccctgggttc cgctcccttgtcgaggactaccttggagcgttcatgtcttggctggacgccgacccgggtatcgcctgctggatcgacaccattgc cgtctgctccctggagccggatggtcgtaccctgggaaggatcccagacgccatcatcctttcccccctgcacccattgcgcctcg catggcactgcttcgcccagaaagtactccgtgacgaggccgagggcgaagccccgtgcccggcagcaagcatcctcgatccggac tgcgtccccgatctadgaccatctcgctgcaggcaccgggaggagtggatcaggtcgacttcctttccgtcgaatgcagctccgac tactggtccgtgctttggaacggatcccggctgggacaaatacccgatcgcgctcgccgggccccgttcgacagtagcttcgggct ggcagttggagggatatcgagcgggttcagccccgcccaggtctcacgagcactcgacgacgtcaccgacctcctggcagccaagc ctatcgtcagcctggtagtgtccagcgcaggtggcaccacggatgcatgcaacgaagggttggccacctggtgcaccaagcgattc ggcaacggggaccatgacaccccgcggcacggtgtcgggccaaggattgtggaggtattcgataccaggcaggctggccggcccga ccaggcgacgatcgccaacctctccgaggacacaggcaaccacgtccgctggtatgacaagcaaccaactgggtccaagccagacc tgggcatcattgcccaactagattcggcccaacccgaatccaaggaggtcggaatgctttcgccgatgggaaccggcggactgatc aggcaccgcgtcaggcgccaactccaagcctccttcctaagtgaatcccggcagggcctgcagatgccaccctccggcgaaccgtt cgcagataaggtttccgcatgcatgctcatgatggaaaggctcagggacggcaaggtcggcctgcagttctcccctaatgtccatg cagtgtccagcatgctcgaggaaaacagcgctgggttcgtcgctgtatcgtcgtcagcaatcgaccccgcctgcttcctcggaggc tggatacaagggacgtatctatgggactacgacctcccctcgtactcgcatcgcgcaggcgacacaagcggctactacctgttatc acaggtcaagcaggctgatcgcgatgcgctacggcgagtcttgaagccccttccgggatgcgaggatctggacgatgatcaggtcg agcaaatcctcctcgaggttgcgcggagggggattcctacggtgcgaggcctctccggggacgatacgggggcgacgggcgacctt ggcctgttcctcgctgtccggctcctacaggatcagttccgtgtgacaggcaacaaggaaagcctgctgccggtgcttgccggatc accggaggactcgacgatagcaataatcatccccgtcgaccccttccggggttacctttccgatcttgcccgctcccttggcaagg agcgcaaggatacctccctgtcgcgtcccgatctgctggtagtgggcgtgcgcgcatgcagcgacaagatccacctgcaccttacg cccatagaggtcaagtgcaggcaaggagtagtcttcggtgcaggcgaatcaaccgaggcactctcccaagccaaggccctgtcgtc attgcttcgtgccatcgaggaacgtgcaggtagttctctggcatggcgccttgccttccagcacctgttgctctcaatggttggct ttggcctgcgagtctacagccagcatcaggcagtaggtgggcatgccggccgctgggctagctaccatgaacgtatcgctgcagcc atactcagcccaaccccgccgatcagcatcgatgagaaggggcggctgatcgtggtggacgcgtcgctccagagcagcccgcatga tcgcgatggcgacaagtacacagagaccattgtcatttccagccgagatgccggtcgtatcatcgttgggaatgacgcacagtcct tctatgatggcgtacgtgcaaaggtcgacgactgggggctgctaccctgccaggcaagtgcggccggcaccccaatcgtgcagccc gacatcactcccccggacgatgtccagacgggcgaccccatagtagtcccagcagaagatatccccggggcatccaccagtctggt cgatcagacatctaccggcgtagcggaaccaggggcaagccctgcccccccaactgacgagccagggacagggatcattctctctg ttggcaagactgtggatggtttcgagcctcgatcactatccctgaacatatccgacacccggctcaaccagttgaacattggtgtc gttggcgacctcgggacaggcaagacccagttcctcaaatcgttaatcctgcagatatccagggcccgcgaggccaaccgcggaat cacgccaaggttcctgatcttcgactacaagcgcgactacagcagccaggactttgtcgaggccacgggcgccaaggtggtgaaac cctatcgcctgcccctgaatctcttcgacaccacggggatgggggagtcctccgcaccatggctggacaggtttcgcttcttcgcc gacgtactcgacaaggtgtattccggcatcggccccgtgcagcgggacaaacttaagggtgcagtccgcagcgcctacgaggtggc tggtgggcaaggccgccagccaacgatctacgatatccatgccgagtaccgagagctgctcgcagggaagtcggactcgccgatgg ctatcatcgacgacctagtggacatggaggtcttcgcgcgctcaggggaaacgaagccgttcgacgagttcctggatggagtcgtg gtgatatccctcgattccatggggcaggacgacaggagcaagaacctgctcgtcgccatcatgctgaatatgttctacgagaacat gctacgcacgccgaagcgccccttccttggcacgtccccacagctccgggccatcgactcgtacctattggtggacgaagcggaca acatcatgcgctatgagttcgacgtgctccgcaagttgctactgcagggccgcgagttcgggacgggcgtcatccttgcctcgcag tacctgcggcatttcaaggcaggggcaaccgactaccgggaaccattgctgacctggttcatccacaaggtacccaacgcaacacc cgcggagcttggagtactcggcttcacctcggacctggcagagctatcagagcgagtgaagacccttcccaaccaccactgtctct acaagtcattcgacgtggctggagaggtcatacggggactgcctttcttcgaactcaccaaccaagcctgaccaacgcccggcctg cgaatacaggccgggcaaggaggctcctaatgacagacttcctttctcccgcagaacgctcggacaggatgtcacgtatccggggc aaggacacgcagcccgagctagcattacgcaaggtccttcaccggctcggactccgataccgattgcatggcgcggggctactagg caagccagatctcgtgttcccgcgatacaggaccgtggtattcgtgcatgggtgcttctggcataggcacaagggatgcaatatcg ccacgatccctaagagcaacacacccttttggctggagaaattcgaaaagaatgtcgtacgtgacgcgcgagtagcaacagatttg caggccttgggatggacggtacttgtcgtatgggagtgtgaactgacatctgccaaaaaagcccagaagactggcgaacgcctata tgaggttatccgtagtcgtagccacggaaagtatcggtaatcgactgaagcagccctgcggcctgtagtggtctactgatcccgga caccgatttaggcgaaaatcctcgccgtgagagaggtgtccg (SEQ ID NO: 59) 63 pLG065 cgaacggagcaggtagatccgcgctaactgacttgcccaatctggctgcattcgtccaacgctaggcggcttcgcaggaaaagcga aacggagggagattctacgcgcacctttgtgcagacctgaggctccaccagacctgagagcccggcacgattgactgatcatagga gtaaggccaagaagcgacttgatgcgcttgtaaggtaaattctcagcgaatcgaagtaatgacaccgaaacacgtgcggtcgacaa ccgtgtaagattgctgataaaaagagcaggacgtcacaagaaatgaacttggaagtagtgccggcgagccggactttcatcgacct cttctcgggatgcggaggtttgtcgctgggactttgccaggctggatggaaaggactcttcgccatcgagaaggccacggatgcgt tcgagactttccgggagaacttccttggtgagaactcccgctttgcctttgattggcccagctggttggagcagcgcgcacactcc atcgatgacgttttggcactgcgcggtctacatttgtcgaaaatgcggggtgaagtcgacctcatcgcgggtggtccgccatgtca aggattctcgttcgcgggcaagcgaaacgcgaaggatccccgtaaccagctctcccagcggtacgtcgatttcgtcgagcgactcc agccgaagtccctagttctggagaacgttcccggcatgaacgtcgcccataagtatgagcacgggaagagtcgcaagacttactac gaaaagcttctgcattcgctttcaatagccggctacgtggtgtcggggcgtgtcttggacgcggctgacttcggcgtcccgcagcg ccgcactcgactaattgccgttgggattcggtcggatatcgcggataagcttgcatgcgcggctagctcgactcccgcagacgtgc tcgagggcatcttcgatgcaatcaatcaggcaggcaagcgtcagctcgtccgatatggccagggcgcccatgtcacggttcgggac gcgatctctgatctcgcgattgggccggccgatcacgagaacaccgaagactacgtgggaagcgagcgatgtgcaggctacaggca ggtcaggtaccaggggccgaacacgccttaccagatcgccatggcttctggggtcaccccatccgaaatggacagcatgcgacttg cccgtcatcgtcctgatgtagaaaagcgcttcaaggcgatccttgaaacttgcccgcgaggggtcaacttgagcgccgagttgagg gcgcagcatagaatgctgaagcataggacggtgccgatgcatcccgaaaagccggcgccaaccctgactaccctgccggatgacgt cctgcactaccgagacccgaggatcctgacggtccgggagtacgcccgaattcagtctttcccggactggttccgtttcaagggca aatacaccacgggcggggcgtcccgtcgtcatgagtgcccgcggtacacgcaggttggcaatgcggtcccgccgctgctcgggcag gccattggctcaggattaatggcgtgcctctctttgagttcaacgcgagtgataagggccagtgcgcccagtctcgcgatggccga gaaaaaggcttttgccgtatagcaattagtcagctgcaagaatcgaacaggtggatagacgatgacgaaataccccgatggattgc ttgattggtcgggcaatcgggctggaggagtcaagaaactcttctacggcggcagcggccgccccgtcgggaaggtgatagagact cctctactcacccgtctctgggaatggtcggatagcgtcgtccagttcgagccgggcattccgcgggcggtgttgctgttgggagg gccgggaaacggcaagacagaggcaattgagcagacgcttcgccgaattgactcaaggcttgcgctgagcggagcgctcatcgaca agcttgcggctgtcttcgagtccaaggatggagtccccccaggacgccttgtggaggtggatcttggggcgctttcaggggggcgc tcgagcgggacaatctcgattgtccaagacgcctcggaggggaatccgggctctcctgatcttccggcgcaattgctctgcaacga cctagcaggactcgtcgaagacaacgtgtcaaagcgcatctatttagcgtgcataaatcgcggcgtcctagatgatgccctgatac ttgcgacggaaagaggtgacacagaaattggtgctttgctgaagcaaatcatccggtcggtgtcgatggcggcccatggcgtctca tgctggcctctgcagggatatccgggcatcgcagtctggccaatggatgtggagaccttggtcgcaggcgtccagggtcaaccttc acccgcggagcaggttcttcatattgcggccaatgccgaccattggcctgatttcggggcatgcgaagcgggtcagtattgcccgt tttgcacaagtcgcaggctcctttccggcgagccccatgcgggatctctcgccaagctgctccgatggtatgagctggcgagcgga aagcgctggaacttcagggacctgttttcccttgtcgcccacctgttggctggaacccctagcaatgccgatgcgtccggttattc gccctgcaaatgggcggcaaaacaactgaatccccccggcggcgacccgcgcaaggccgatgtactccgaaagcgcggagtctttc ggttgctggcttcccaataccaacacgcgctctttggcgactggccaatcgagcatgcgtcgggtctccgaagagacatcgccgac ctagggcttggtgatttcccggcgcttgtggctatccagcagttcctggcgctggataagcggcgggagtcgacggcaaccctccg tgcccagctctccggcatgtcatccgtattggatccagcaaaggcaagccccaccttcgaggttagggtaagcgctaatactgtta ttcgttacgaagacttggataggcggttcagcctgtccatccaaggaggcagagagtacctccaagaatatcagtgcctctcggag atcgagatttcagcactcaaggtccttgaggaggccgacaataagttgtctgatcacttagtcaggcgatctcggccggcgacagc aattcgagtccaggcgcttctgagggccatcgcgtgcaggctggcaaggaggtcgattggcgtcaggtgttgtgtcacaaaggatg ccgacgtcctcgaggagttccaccgcgtcaccaatggcgattcgtcggcgctgcagcaggcgatcaggcaggtcgaggcacttctc aacgtcaatcgccggttcgttgtttgtctcaacaacacctttggtgagccgctgcctcccccagagcggcgcgcgatgcttaccac ggacattcagcgcgttaagccggtgcccgccttggagggtgttgagcggccgagatcgccgatgcccttcctgagggtcggcgcac aaggcaacgccaggcccatagccctgaccttcgatctcttcaaggcgacgaaatcccttaggcgtggcatggtcgcgtcgtcactt ccgaggtcggtggtcgcgcttctcgatacgacccgagctggtcttgcgggagcgatcgtgcgagacgaagacgctctggaaggtgc ggagatccggatcggaatcagggatgaggtcatagtgcggacctttggaagtttcgtcatccgccaggagggtgcttgatgtccat gcaggagtttctcgcttcaccatggaagaaagaagcctcgcaccgagccttcaacgaatcctcttttggtatgaggtctgccccgg agttcgcaactggcgaggtcgtcctgtcttcgctctaccgcgccgtcggctttgacggggtttccgaggagaaagtgccctcgctt ggcaatgatttcaggaaggcgctggacaaggaacgcagaaagcagaacgcagctggtggtctgagcccagaagcctggcgcacggt cgtggatcgtgtcgtgcaaagtcctaaggttgcgcagcaatcctccaagcgattcctatcgctgtccccggtcgttcccgacgcgg ccatctactcgggcgccgcgcgccttggaggaaactcctggaacccggggcggctgatcaagcaaatggtcggaatcgggtcggag accatggagggcgcggaaacgctttggggcgaactctacgatgctttgtccgtgacggaagcggatgatgtctgggcaagatggct ccaaacagaatttagtcccaggcgcccagagcaaatagcgtgggccccaagaccgatggatcaaccagatttgcttccgcaatccg atagacggggagtttcctatcccgctcggcagttcgtggtggacctgcgaggaatcttggatgcgaagtccgccatgacgcggcgg cagtggatcacactgctcgaggcgctacttcgaattggatcggtcagccatgtgctgtggctgtgcgacgtcaatgaccgcttgtg gcgtgcgatgcgtgcggcgctcgagggcgaggcgagtggcgtgcccgccgatgccgccgccataagaaccgacattctggccgtca ggcggcggacgctctcgttcgggaatcccgctgtcccagcgattcgggacctggcctctcgatacctatccgcacgcctgggaatc aactgtgtcctttggacgctggacgaacttggcgtgggctcaagtcgactttgttcgtccgaagaaatccttgacttcatcaagag cgttcaggccaacgcaggggggctcaaggcccgtggcgtcatggatgccttccattccctgcaagacaaggaagtcaggaccattg gctgtaagaaaggagtcggagcaaaccttctggaattcagccagtacacgcttggacagaggcagacgatggaccaggcactccgc gggtacgaccagagctatttcctcaggaagaacggggatgccaggaacgcgccatgggttctatctctagggcccgctgccgtact tgcgatggtccactcgtgcctacatgcggtggatggaccgcgatcgatacaaaggctttcatcccatctcgggagctacggcatcg agtttgatctccacggcgtcaacgatagcgtccttggaaagcaactccgaatgctcggactcgtactggatagcccggatgccgag agcggtatgctccttgtgcccccgttcgtagcctgaggaaggaggcaatgatgagcacgctagccaagggaattgcaagctgggtc gaaaaagccatggcgcgtgagatcgcgacgctggtggccgggaatatggagtgtcgcgcagtcttctgcggcccgccaaagcacat cctgaatcaagtatttgggcatcttatccacggtcgatcgctgatcgaagcgacaagggccgatggtcaggcggttcagtatcccg tgatccttcaggtcgaccgcctccctacagggtttcccatcggctccgccacacagtcgggatgccttcagttccatggactcgct gccgtcaggaacgacaggaatggtgttttcctagttcttgtcgagcccggtgctcaagcgagcgatacgcatgaatcaactcgaac ttcgcttggactcgagccatcggtaaacgagggcggtgcctcgatcattgcctggtggtctgatccattcattcagtcgcttgttg attctgccctctcagaactctccggtcgcgacgccgcggctgccaaggatctactaaaggaggcgatgatcgccgccgacgcggca gatcagcacgaagtagcgagagttggagcctggcgcgtcatcgaacggttgtgggagctaaaagaacgcggcttgtctcttgacca actcgttagcttggccgccggattcccgccctctagcgacggaagtattgaaccgagatccaagaccgccatcctttcagccatcg tggacaggatcgaagccgagaacttcggtggcttactgtcgtcccttctgcaaaaagccagggacgatatcgaaaaagaacacatc accgcgtgcctctcgaatatgaggggcaggtgcgatgtggttactgcggttcggcgatgtgcgccatatgcgtacatgccttcgga cgccatcgctggcgaagtctggtggaagtcgctcactgtcgagcgctgggaagagttgctcgatgatggcgctctacccgatgcgg gcggcgacatcattattcagtgtgccaatccgatgatttcgcaccttaagggcatggttcccgtcgtcaagggatccgtgcaactt aggatcgaggttccagagaagtacgtgggcaggcggttggaggttatccgcgaggtcccgggtgcgaaggcggcgacgaaggtttg gacagttgacgcggaacgcatgatccacgtcgaggacgacgagatccccccccacaagagtccgatgaagtactcggcaagcctcg aaggatcagccggaaagaaggcgagcgttcgaattgtctcaatggatggctggctccctggggtggttgcctctgcgacgacggcg acaaaaggttccctcccgaaacgctcaaaagcagcgaagttagaggcgtcgctgtctctctccgggcaggggaggcactaccttga catctacttaaggccgggcgtcgagctcgcgtcaatgctcgccaccggtagtgacgaggaaggaaatccagacccgtccatcacgg cgccaatcggcatggtcgcggagggcgagttcggggtcgaaatcgaaatcgaaggggaatgcttcttcgacatcacgctcagggtt ccggaggttgcggatgatcaggtcatccggatcgaattgtcggcggagcaatcaagcccggaagagtgctcaagccacttcgaatt gcagctccttaagaactctagcggtcggaagcccagcgcggtccacgttaatgctcagctaagaagtgcgcagcttcaaggttgga tgctggagcaggggcgcgctggtcgctcctattatcccttcgttatggccgcggactatgccgccgactggcacaggcgggactgg actggcgcagatgacacgatcttctcgaaggctagcttcctgtgcgatccccggccctcgccggaagaaatggcgccgccgcaggc tttcatagatgccagagccgcactggccgccaggatcaggggtggtgacggaaatggcttggtcgaaggtgtgccgctcggtgagt ggatggcaacggatcccgatttcgccggggaaatagacgtctacttgaaatcctacatgcactggcttgcgagcgatccagatggg gcggtttggtgtgacgtagggttggtcgcgcggctcgagcctaacggacttaccttggtgcaagagccggatgcggtgatagttag cccgatgcatccggtaagacttgcttggcactgtgtggcccagcgagccatgttccttgccgcacgaaagagaccttgtccagccg ccagcatcctcgatccggattgtgtgcccgatgcgatcactctcccactgagaaacgccatgggtggcaagaccaacgccactttt ttctcggtcgaatgcagttcggactactggtcgattctttggaacgcggggcgcttggaagccctttcttcacatggggcgacagc cccgcttgaccgggagtttggcctactcgtcggcggaatctccggtgggtttagtgtttcgcaggtgcacaaagcgctcgaggaca tctgttcgatgctggtggcgaagccggtcgtcggcgtcctggtgtccagtaccgcgagccagaacaatgcgtgcaatgaaggtctg ctttcctggggcaggaagtacttcggcggcggggatagggcggcaggcttggacgcctgggtcggggccagcgaggtcaggatcta cgacgacagaccggaagatgcccggcctgatgatgcggagatttcaaatctggccgaggatacggcgaacgccgtgcactggtatt ccggcacggtggccggcgaggctcccgatctagcgatcatcgcccagcttgagacctccaatcccggtgcactcccaaccaaacta aattctccgttgggcttcggtgggctcgtgaggacccgaattcgggagccttccagcatggcggggggtcaactgctccgtgagtc gcgcatgtctggtcccgcggcgcccactggcgacgggctggccgacgctgtagcaagtgccatctcgtcgctcgagaacatctcgg agcaacgccttggttacgtattcgcccctagcattcatgtgatcaagggggcgctggagagcgcggaatttgccgcagtttcctct tcgagcgttgacccggcctgctttctcggaagttggttggagggcacctatctttgggactacgagctcccgtcgtactcaggtcg tgccggagacagcaatggctactacttgttgtcacggatcaaggatctcgacctcgaaaccctgagaagcgtggtcaagaggttcc ccggttgcgaggagatgccggaagccgtgcttgctggaatagtcgaggaggtcgcacggcgtggtattccaaccgtcaggggcctc gccgcaggtgattctggcgcgacgggtgatttggggctactcgtggccacgaggctgcttcaggatagcttccgggcggccgaatc aggcgctggtctcctgacgccttggcgcagggagggagacatcgaagagcttgctctcgtcattccggtggatccattccagggct atcttgacgatctcgcgaaggcgctaaagcgccctacgctccaccgcccagacctattggtcgcgacggtgcgaatcagtgacctg ggagttcaggtccgactgactcccatcgaggtcaagaaccggggtgctggagcggcgatgccgcaatccgatcgagaagccgcgct tgcccaggcacgctcgctggcatccctgctagatgcaatgctggcaacgtattctgaggatcaagagatggttctctggcggattg cgcaccagaacctcttgacctcgatgatcgggtacgcattccgtgtttacagccaacgtctggcagcccaaggcaagtcgggagac tggtcgcgcctgcacgcacgagtcatggaagcaatcctgagctcccaggccgatgtgcgggtggattcgagaggccgcctgatcgt gatcgatggctctagccaaagtggtccgagggatacagatggagatggtttccacgagactatcgagctctcgcacaaggatgctg cgcttttcatccgtggcgagcacgatgcgctctgcacggccatgaagcagaagctaggtggctgggaaatgttccctgaagggagg gatgccggactctccaatcaatcgccgcccgtggcccatgagactgcgcccttggtggatggcggcgttgaggtgccgtcccttca cgcgctccaagcaacggcggggcccgagggcagctcgctgccgtcttcgggagtcgaagccatgggcgcgtcgcagccggcctccc cgggagccatcgacgtggatggcggcatggcccagtccgggctgatcattcgggtcggtgaaacgatcgatgggtttgagagccaa attcggcggctgaatcttggcaacacggccctgaaccaaatgaacatgggagtcgtcggcgatctggggaccggtaagacgcagct gctccagtctctggtttaccagatagccaaggggaaagatggaaatagaggtattgagccgagcgtcctcatcttcgactacaaaa aggattactcttcgaaggagttcgttgatgcggtagctgccagggtcattagccctcatcaccttcctctcaacttgttcgatgtt tcaactgcatcgcagtccatcaatccaaagctcgagcgctacaagttcttctccgacgttctggacaagatctattcagggatcgg gccgaagcagcgagaccgccttaagaactccgtcaaggacgcatatgtgcaagccgccgaagggcagtatccaacgatttacgacg tccatcgaaattacgtagaagcacttgatggaggcgcggactccctgtcgggaatcctaggcgacctcgtagacatggagctcttc acgccggatccaagtgtcgttgtttcgtcggccgaattcctgcgcggagtggtcgtgatatcgctaaatgaacttggttccgatga ccggaccaagaacatgctcgtggccatcatgctcaacgtcttctacgagcacatgctgcggatacagaagcggcctttccttgggg agaaccgcaatatgcgtgttgtcgactccatgctgctcgttgacgaggccgacaacatcatgaagtatgaattcgacgtcctgcgt cgggtcctcctgcagggacgtgagtttggcgtcggggtgatcctcgcttcgcagtacttgagtcacttcaaggcaggtgcgacgga ctaccgggagcctttgctttcctggttcatacacaaggtcccgaacgttcgtccgcaggagctttcggcgcttggctttagtgatg cggtgggattgccgcaattggcggagcgtatccgtagccttggcgtccatgaatgtctctacaagactcatgacgtgcaaggtgag ttcgtccgcggcgcgcccttctacagacggggtgagtgggccaaggaatgacttttcgtcgtgtcgatttatcgcctagttacgct tttggtcttaagttgcgttcctaagagaggtgggctgtgtccgacaatgcgtattacgtttatgcgctgaaagatccacggatggc gcccgcccagccgttctacataggtaaaggaaccgggacgcgctcccatgaccatcttgtaaggccagacgattcaaagaagggaa gcaagatctccgagatcatggcctcagggcgtcaggtgctggtaacccggctcgtggacgggctcacagaagagcaagcgttgaga attgaggccgagcttattgccgcttttggcaccctcgatactggggggatgctcctgaattccgttctgccaagcgggttggtaaa caagagccgtagctcgctggttgtcccgtctggcgtaagggagaaggctcagattggtctggcccttctaaaggacgccgttctgg agctggccaaggcgaatccgactggtatctcgaactccgatgctgcgagcatgctcggcctgcgtagcgactacggcggaggatcg aaggactatctgtcgtacagcctcctcgggctgctcatgcgggagggaaagctcgctcgggttgccggcactaagcggcacgttgc tcaagtgagctagctgtggggttccggatcgggctggcccgctcggcgctgcgctacgaagctcgcttgcctgccaaggatgctgc ggtcatcgaacgcatgaagcactacgccgcgctgtatccgcggttttgctatcgccggatccatatctatctggagcgcgagggct tccatctcggctgggaccggatgtt (SEQ ID NO: 60)  64 pLG066 gatggactggtactgtagattcaccgtggaccagcgaatctattatgtggtgagcagaacattaacacatcaatgtaacgccgtaa tcattgagtctttgccggggacgcttgacatctccgaaagaattatatcgtgagtcttaaggggaatctcttgcttccggttatac atttaaccggatctagctataagactgttacatctattgggattaggtcaggacagatagcctgaaagcttttatagtgagggact tcagaaataccctagaaaaggaactgttatggtaggttcgcgctggtataaatttgattttcataaccatactccggcttcgcatg attacaaaattcctgacatcagccccagagagtggcttctggcttatatgaaacagcatgtcgattgtgttgtaatcagcgatcat aacagcggagcctgggtcgacgtgttgaagggtgagctggagaatatgtcccgggacgccagcaccggcgacctgccggaatttcg gccactgacactctttccgggggttgaactgacagcgaccggtaacgtacatattctggctgtgctgcacacgcacagtacaagtg ccgatgtggaaaggcttctggcccagtgcaataataatagccccattccgagtgaagtccctaaccatcagctcgttcttcaactg ggccccgccggcatcatcagtaatatccgccgtaatccgaaggctgtttgtattcttgcgcacattgatgcagccaaaggtgtctt aagtctgactaatcaggcagagctcaccgcagcctttcaggaaagtccccatgccgttgagattcgacaccgggtggaggatatca ccgacggaacccgccggcggctgattgataatttaccgtggctacggggctctgatgcgcaccatcctgaacaagccggcgtgcga acctgctggctgaaaatgtcatcccctgattttgacggactcaggcatgcactgctcgatccggaaaactgtgtgctgtttgatca gctccctccggaggaacctgcgtcatatttgcgcagcctgaaattcagaacccgccactgccatcctgtgggtcaggattcggcct cggtggaattcagcccgttctataacgctgtaatcggctcaagaggcagcgggaagtccacgctcattgaaagcattcgtcttgca atgcgcaaaacagaaggtctcactgcgacccaggggagtaagctggaccagttcattcggacggggatggaagcggattccttcat cgaatgtattttccacaaagaaggcacagatttccggctcagttggcgaccagacagtaagcatgaattacatatcttcagtgacg gagaatggatgcctgacagtcactggtcggctgaccgttttccactctcgatttacagccagaaaatgctctatgagctggcttcg gatactggtgcattcctgcgcgtctgtgatgagagcccggtggttaacaaacgggcctggaaagagcgctgggatcagctggaaag ggaatatctgaatgaacaaatcacgttgcggggcctgcgtgccagacagggaagtgcggattcgctgcggggggaattatcggatg ctgaacgtgccgtcagtcagctgcagtcaagcgcctattatccggtttgcagacagctggccctcgccagaaacgagctgtccgca gcaaccttacccctggagcactttgagcggcgtattgcagccattcaggctctggcagaagaaccgctgcagagatccgatatccc gccggaaccttccggtctgctgatggcatttatggcgcgcctgtcatctgtgcaacagcagtatgaccagcggctcaatactctcc tggcagaatatgctgcagagctcgcgggtatcaggagagagcaatcttttattgccctccgaacagcagtgagtgaccaggaaaca aatgtagaaagtgaagctgtttccctgcgggccagagggcttaatcccgatgttctcaacgaactgatggcacgctgtgagtcact gaaaaatgagctgagaaattacgacggtcttgatggggcgatctctgcctctgttgcacggtctgagcagttgctggctgaaatgc gtgcccacagaatggcattgacagataaccggaaggcgtttctctcctccctgtcgctcagcgctctggaaatcaaaattcttccc ctctgcgccccttatgaagatgttatatctggttaccagacggttaccggcatcagtaattttgccgaacgtatctacgataacga tgacgggagcggattactgagcgactttatcagtgaacgtccgttcagcccgttgcctgccgcaacagagaaaaaatacagggcgc tggacgagctgaaagcgctgcatcacagcatccggctggataattcagaggctggggcggggcttcatggttctttccggaatcgt ctcaggagtctgaatgaccagcagctggatgccctgcaatgctggtatcctgatgacggcatccacatacgttaccagacccccgg ggggcagatggaagacattgcctttgcttctccggggcaaaagggagcgagtatgctgcagttcctcttatcctatggcaccgatc ctctactactggatcaaccggaggatgacctggactgcctgatgctgagcatgagcgtgatccctgccatcatgtcgaacaagaaa cgccggcagctgattatcgtgtcgcactctgcccctatagtggttaacggcgatgcagaatatgttatcagtatgcagcacgatcg cacaggcctgtatccaggactctgcggtgcactgcaggaagctccgatgaaggcactgatatgccgtcaaatggaggggggagaaa aagcgtttcgttcgcgctatgagcgtattcttagctgaagaacggaaccgtccttaaggcggccatgaccggagagtgggcctggc ggctgaatgcctggataaaagacgcaaatgtcagactgatggcctctgcgtctttg (SEQ ID NO: 61) 65 pLG067 cctggtcctgccaattgctcccccagccatatgacataatccttttgaataatagggtttttatgcttgtactctagcccattcgc ggtatcattttacgatctctcttccagttttatgcttaccgcctttgcctatcgtagaacaatgccgggaagcgttatcagcgatt aagggcaaggaatgagaaaaagctggactatagaggaagattgtaagctgctaaccttggtgcgtcagctcttttccgcgctggtc agccataaccggctgaatgccacaatgccatttagccagcagctccacgatgcatttgactcacctgaccgcgatgccgcagcatt gctttatcgcctcgaacaggcaaaaatcttgggatttgccagccgtcctggtggcgatcccactaaacaactgtttcgctgcctga taagcaatgatttggcgctatacgattacagcctcacctttcccaccctcagaaaagcattgcatccagataccgttgcggcagca ctaaaccacttcacgattagcaatccacacgaaccactgtccaatactatcaatgaaatcgcgacagccttgcatcttgcccccat acaggtggaaaagattctgatcgacagcggccaaataaccatcaatagttaccgcaagtgtgagcgtgttggagagaaaaatatca ataataatctgcaagatctcatctctaggcaaattcctgacataacgctgattaaagagattaacgcctgtcgcgcccaagtctct caactttaccacgtgcatgaacgtgatggcgctgaggtcatcttcagttccgacggcacggggttcggcaaaagctatggcgtgat ccaagggtatgtcgaatatctggagcgcttcgccaaaacccaaaagtcagacgatctgtttcctgaaggtggctttaccaacctgc tattcatgtcaccgcaaaaatcacaaatcgacctggacagcagtcagaaagagaaaattctggccgctagcggcgagttcatttgc gttctctcccgtaaggatgttgccgacctcgactttatggactgggcctctggtctgaaaaaccgcgaccgctatattcagtggta cgaaggggcgaaaggcagcaaatatatcggcggcgctatgcgttcgctcaattatcatgtcttacaaattgatcgctgtgaagagc agttaaaaaagctgacaacatacggttctcaggataccaactacgaaagagaaattctcgaagaacagctaaaaaactgccgtcac agtatccgcaatacgattgagtcagcctgtaaattactatttggaccagatagtgaaaaagcttccattaaagagtacattcgtcg cgggctccaggcgcggcaagagcgaatgcaaaacgcggagacagcacgaaaaccaggaaagcttgaacctaagataagcgtacacg aagtctatttcgagcttatcaaacaggtattgcctttcgaagtttgccagtaccgcccgtcagtgctattaatgaccacgaataag ttcgacacatcaacttaccgactggcgcctcgtcagcgaggcgaaggtgtgcgttttgagtccgtaggtttcgacttgctgattgg cggtaagctgactcccaaagatccacagattagcaccgttgcggcagccggtcataccgggcaggttacctatcttcgcgacgaac acttcagacgcaatccagattgtccttttcgccagaaaaatattcgttttacggtgatcattgatgaactacatgaagcctacact cgccttgaagaaacatgccatgtaaagctaatcacacaggaaaataacctggcgcacgttatttccgtcgcaggacgtattcacaa cgcggtactcagcttagaacgccgaaacaagcccaaagaagcgcaaacgacctttgagcaagagatggtcaaattcatcactactc tgcgcaatttactggcggaaaagtgcgaactatcccccggtacaaggctgggatcgatcctggagatgtttcgtgaccagttaggg gcatttgaagtcaacggcgacgccgccgaacgcatcatctcaatcacccgcaacgtattcagctttaaccccaaaatgtacgtcaa tgaagaagggctgaaacgcattcgcatgcgcaacagcgaaggcgacataacgcgcaccgaactgtattacgaagtcgaaaatgatg ccaatgacaccaaccccactctgcacgatctgttccagttggtctccgtcatcctcgccgcctgttctgaaatcaccaaccggcac tttaagcgctgggtaaagaatggtggccaggacaactccagcagccagaatacgcctttgggccagtttgttgacgcagccaataa cgtagccggcgtggtgcgacatatcttcgatcgcaccaccgataaaaacttgttgattgatcatttctacacttacctgcaaccca aaaccgtattcacgatgacgccgatagctgaactcaattacgtgaacaggggagccgagcgcacaattattctggcgttcgagatg gatctggtacaagagttgcctgaagccatgctgctgcgtttattaaccggcacgcacaataaagtaattgggcttagcgccaccag cggttttagccacaccaaaaacggtaacttcaatcgtcacttcctggcgcactatagccgcgaccttggctaccgggtcgttgaac gcgaaaaggcagatatcgatacgcttaaggcattacgcgggttgagggccagtatccgcaacgtagacttcagggtgttcgatgat aagcagttaaaattgaccgatatctaccaaaattgtgaaatctatcgcaggacgtatgacaactttttcgacgcgctgaagaaacc gctggaatacgacctgaaaaatacctataaacggcgtcagtgccagcgggaactggaagcgttactgcttgccgcctgggagggta aaaacagcctgattctgtcactttcagggacgtttaagcgggcctttatcagcgcctggcgcacgcaccagacaacctggcgtcag cagtacggtatgcactcccggtgcgatgaaaaaacggataacggtaagaaacatgaccagatcctgacctttaccccattcaaagg gcgtcacaccgtccatttggtctttttcgattcaccactggctaatgtcgaagatatcaggcaagaaacctatctccagaacagca ataccgtactggtatttatgagcagttataaaagtgcgggtaccggcctcaactactttgttaaataccatgacggcgatattaat gatatcaatgcaccacgtctggatgtcgattttgagcgcttagtgctcatcaactcctcgttttacagcgaagtaaaggacaacag cggcaacctcaatacattacctaactacgttaccgtgcttaaacactacgccgatgacgatattaccgtccacaagctggccgatt tcaacgttaatttcgcccacggcgaaaactatcgcctgttaatggccgaacatgatatgagcttattcaaagtcgtcgtgcaggcc gtagggcgagtcgagcgtcgcgacactctattgaaaacagaaatctttttaccccgcgatgtgttccgtaatgttgcatttcagtt cgccgctcttagtgaagatagcggtaacgaggtggtatcagaaagtatgtctttgcttaaccaccgactcatggaggagtgcgaaa agctgagtcagggccagtcattcaataatgcggaacagcgactgacgtttgagcaagctatcgtcgcgaatggtcgccgcatcgat gaaattcacaaacgtgtccttaaaaccgactggattaataaggtacgcgctggcaatctcgattatctcgagatatgtaatttatt ccgcgatcctgactcctttaccgatccccagcgctggctggcaaaactccaggctaatcccttgtataccgccaatcgacaaatgc aatctgttcacgacgctctgtttatcgatcgtcagcaagggaatcaaacgattttactttgccacaaacgcggcccggatggactt gcccacagagattattccgccctgtcggatttcgctggcggcgcaagagagtaccggccagagctcaccctctttccgcagtatag aaacgatgtcgattttacccccggcaacctggtcggcgagttgattcgtgaatgtgacaacatccaggaaaaggcattcaaaaaat gggtacccaaccccaggctagttccgttgctcaaaggcaatgtcggtgaatatctcttcgataaagtgctaaaaagttatggtgtt accccactctccgaccagcaggtgtttgaacgccttgaaccgctggtctatgagttttttgaccgctttattgaagtgggcgacga cctgctctgcatcgacgttaagcgctgggcgacacagttggacgatttgacgcgggcagaagaaacgcttgagaaaagcgacaaca agattcgccagatccgtaatatcgccagccaaaaggcggatactgaggggcagaaacagctccagacggcgctggcaggccgttat gaacgtattcgatttatctatctgaacgtcgcctacagccagaaccctaataatctgatgtggcaggataatgtggatcacacgat ccactacctcaacctgttgcaaactgactaccagtattatcagcccaaaaatcgagagagcggacgcgctcaggaaaactcgaaac tgcgcatgacattggatataaacccaatgttactaaccctgctgggtgtagaaaagttgccgactaaaggaaaagtatcatgatcc ctaatctgaatgagctgacggatactccgattgcccgtaccaatttgatcaagcttgaagaagatcagctgacaacaatccagcgt ctattggccccggtatctaatatctatacgatagactttatggttcagcactttactaaagagcgaaaagaaaaatccgctgatta ctatgcgcgaattcatcaggaggtaaaaacttgcgtgcggcagaagcttgggcttgaggccggacaggaagtaaaatatgagctgca ttgcttacccaattaccatcacgtcttttttttcctggcgcctgctgctgcaccgaacagcctagcgcatcggactttggcagaacg cattgaaacgctttgccagcgactcacagctgaaaattatgatttatctcgcctgattcagggattgttcagtctgcatttgaaaat ggtaatgctggaacaagccagcgagcgcttttcggtaccgccaacctacttcaactctacgttctatctcaacgctcgcctgagtca gcccgtcacgcagaaaagcggcactggagtgatggaggcattcgaactcgacatttatgcatcagaatataacgaactcgcctttac cctgcacaaacgaaaatttctggtcgaaccggaggatgaattgcatctctctctggacgatacctgcgtgtggtttaacatcgataa tcgtcggctcaaagcccggcgcaaactcgatgcccgggatagcaaactggacttttttcgtgagcgcagcggctatggtgaatgcca ggcctatacctataacgtggtcatgaatgccgcctgcgagcggctcagtgaactagagatcccgcatcagcctatcgcatttcaggc cacccacgaggtcaatcagttcgctaccgacctcgatcaacaactgactaatacgctgttggtggttaataacggcgtcgaatttag cgccacgcaagaagcttatttctttgacacattagccatccagttccccgggtatcaactctggcctctggcgtcgcttaaacattc tcagcaaaccggcttttctgagctgcctgccagtacatctattctggtactcaatgcagtagatgaagagcggagcaacagcatccg ccagcaagataatgaatctgttgagtacaatgatttctatgcggcctttgccgacgcccgaaaacaacccgaactcaattgggatac ttatacccagcttaaactagatcgtttgcaagggtggctaaatcagcaacctctgcccgtagtcttacagggtatgaatattgatca caagttgttggatgcgattgattttattaatgaacaattgacaagcaaccctactcaatacgaaatcgatcttacgaagcctcacag tcgtctcaagtcagcagttaccttacttaacagtaaggttcgccgaacaaaaaccgagctatggttcaaagagagcttactcaatca gcatcacatcccactaccagatttggcggacgggcactataccgcctatgcagtacgcaaaacgaaaagctatctccccctgcttgg atatgtcgaactaaaaatagaacacggccaacttagggtggttgataccgggatcgctgaaggtaaattagactatctgtctgttga tcccccctctctgggacgattaaagaaattattcgacaaaagcttctatctctacgaccacacagcagatgtcctgcttaccaccta caacagctcccgcgtaccgcgcctgattggcccggcgcaatttaatatcgtcgattcatacgcttatcaggaacaagaaaaaactct ggcagagcgtaaaggggataaatttaacgggtacgccatcacccgctctgcaaaaccggatcaaaacgtactgccctatctgatatc acctggccgctcgaaatacgactcgctgaccaaagcgcaaaagatgaagcatcaccatatttatctgcaaccgcatgagaatggtgt atttgttctggtaagcgatgcccagcctacaaatcctactattgcacggcctaacctggtggaaaatctgctgatatgggatgccca aggcaaagccgtagatgtatttagccacccgttaactggcgtttatctcaatagctttaccctggatatgctcaggagcggtgaaag cagcaagtgttcgatttttgccaagcttgcccggttgatggtagagaactagcggaaaatttagggcggtgtttttagaattcgtta tgtgtgaacctaactgatctcccccctgaaaacagtaccagtctaaactgaagtctccggtctttcttcctgctcacagagaggctt attaccatgaaaaagacccgttataccgaagaacagattgcgtttgcgctgaaacaggccgaaaccggcacccgcgtcggggaagtc tgcagaaagatgggtatttc (SEQ ID NO: 62) 66 pLG068 caactgaggcggatatggccggtgcgttcatgtcctgaattaattcgaaagacaaatcgcgttaccaagcgttgcgcgatttagca gcaaattgatagcttagccaccaacatttacacgttgtaggttgtcttggccgccattggtcttcagcaacctgcaacgctgatca gtcgctcagggaagatgaggtaccgcagatggacaagcacgcccccgagcacctgctccgccttctagcccaaggcgcctcgctgt gtggcaccgacagggccgaagcgtttaccgtgcttcaaagagcatccgcattgctctggcgcctggagcctagcgctccccccatg tcagcgatcaagcttgaaaatcagcttagcctacccttggaaaagtggttgccggatgcactgaggctagattattcgggcccact gctttactccaacatcgcgacgcagacctgcaacgaaatgctgcttgagctcgacgtcagtcagctctgggaagaagtccaggcaa gcgtaaatagggtcaagcaggcgtgtcggctgcgggcagagggagaaattcactaccgcaacttcaggcttttcctcattgagcac ggcgtgatctttccgtctgaagcccaagatgtcttcatcccgctcaacctctccctgaacgagttctacgaccccatccccctcca tctgtatcacaacggcttagtctacttgtgcccggaatgccggtggccaatgaatgcccagcggcacgaagtcagctgcgactcag cctggtgccaagacaaaaaaagcctttttgttcgtgaaggtacaagccttctcaaccgtgtgaacaacagcgtgctgcatggccag ccggtcgatggccgtctgatgctcaaacctgcgctgtggaaattcaccctgcagccaggacttatcgaaatcgccctggcgagtac gctggcgggaaaagggtttgatgtgagtctctggccggatgtggatcgaacagacctccgtatccagttaggccttattgagcagg acatcgatgccaaggtttgggtgtccccttacgagttggccaaacacatcgaatcgatcccctccagcaaaccacgttggatcgtg attcctgactatcagcgggagagcattccgtttctacgccagcgctgcaagtctggggtgagtgtatttacccaaagccagtgtgt gaaggaggccctgaaacatgctccccctttctgataccagcgtcatactgttcctcgccttagccgcgcgttacgtcggcaacgaa cccatggtggcggacgcagcagcgctctgcgcgggtcgcacacgaggctggagcacttggtacgtgctatccgagcctgaccagct acttatcgctgaaggcttgcgcctacgcccatcctccgtggcgcagcccaaacgcttcgtgatgaccgcagaggaaattatcaagg gcgaacgtagcccctttgagttagtcgactctggcaagctcagcagtgagctccacgagcaggattgctatcgcgtttcaccccac ctgaacgtcgatcagctcatcagggagcacctagatgcgttgagatatgggcgccccccatcggttcatgcacagattccagactc aggggatgtcgttctcaagcacatcacaggtgatcaggtcagggtgttcgtcgtcccacagagcgagcgaggggtgctcagtggcg cccaccagtacgttactgtcccaacctcccatgcagcccctgagacgaagtgggaacttgacgctctgaacgagctcgcggagtca ctcgatggtgcaaccggattgcacacgaatcatcgaagctcgttggccaacatttggggttcggatccgctacgcacagctgacgc aggtcatttttatcgtgtgaacgcgccgactggcaccggtaaaagtgtggctatggtcatgatgtcgatcgatgctgctcgcagag gacaccgggtggtgatcgcggtgccaacgttggttgagcttgagaacacggttcggattctcaagcaatccgctgcggtgacagcg cctgatatcacggttgcccccctgcactcagcaacacgcgtatacgagcgcggaaagcttcaatttcagcagggtcattctgcacc ggcctacgactatgcctgcttactcgatgcctatgcctcggatacgctgcaagttgaacctggaaaagaaccgtgctttaacgttc gggtatcgacacaggaagaaggtcgtgcagaacaatcaaagcggctgaatcactgccctttcctgttcaagtgcggacgaacaacg atgctgtcgcaagctctggaagcggacgtcgtggtgattaaccatcacgccctgttgtccggaacaacccgcattccattgtccga ctcagaccggtgtccaggcccacgcagcttcatagagctgctgctaagaacagcaccggtgtttcttgtcgacgaaatcgacggtc tactgaagtctgcgatcgacagcagcgtcatcgaattgaagctgggcaatcaaggtgacaacagcccgctgctccgtctattcaat acagtggccggtcgatccagcattcctgagattgatcgaagcagcatgtaccgcgtgaactgggcgcttacctactgcacgctgag tgtcagccagctaatgaacctccagcaagaggaatatttcgagtggccaaagaaagaaaccacttggtcggacgcagacgacacgt tcattaccgaaaagcttggtattgatcgtgagacgcttgagcacttgttcaacagcacgaaccgcataccgggctatctggaaaag ctgagtcaccaccttgctcactggcaatcaaatgggggccagtacaagcttgaggccttggcaatcaatctgggccatctcgtcaa agagttgtccgacagcgacttgcttcctgcgcgtctcaaggagcacgatcaaatccgcctcaaggcgtcactcatcttgcgaggca cgttagaagcgatcgaaacgcacctgcgcaaccttcaggtcgagctacccagcttcgtgaacgccgaaataccttatgcctacgag gtcaaacggagtatcgcagggccggagccgctgagcccgactccgaatggccccttgcagcgagccgtatttggcttcaaacgtaa agacaccggagacaacgactcaactctgaacgttgtcgcaatgcgtggggatccgcacagcacactgctttcgctgccagatgtca gcgccttgggctatgccggtgtaaagcgattgtttatcggcttctcggcgactgcctacttccccggcgctagcgcttacgatctt cgtgctaaggatttcatcgacgttcccgatgtagctggccaggtgactttcgaaaatgtgcctcagacaaccgctatctctggcgc tcagttctcgcagcgaaaattcctggtatcaaaattcgccaaagagatttggccgtggctacgcagccgacttgcaagcttggcca acgaccccgtcacgcagacgcgtgcccgcctgctgctggtcaccaatagcgatgcagacgctgaagttctggccatgaccctggcc aggatgcagggcggtcctggtcagctggtaggctgggttcgtggacggcaaagcgactacaagccgtcctcgctagatgcacagca gatgcttgcatacgatgatctcgctgagttcaccaacggccgacacaaggacaaaactctgctggtcagcgccttgggcccaatgg cgcgtggacacaacattgtgaacagcgacggattttcagccattggtgctgtggtgatctgtgtacgccctcttccatcgtcagat agccccaacaacaatctggcgcacatctgttacgaaaccagcaagtttgtagcgccatccagcagtccgggcgtattgatgatgca ggaacggaagcattccaatgcgctgctgcaaaagattcgtaccgcccgccccgcgttcagccagcagccggccaacatccgccact acacgatcatgaacatccttgtgagcctcacccaactgatcggtcgtggacgccggggcggcacacctgtgacttgctacttcgcc gatgcggcatttctcgaaggtttgaagccgtggcctctgatgcttaacgagagcgttgaacagctcaagcaagacggcgattggaa ccagtttgcccgtcatcatgccggcgttgcatcggcacttttgaaatacatcaatggatcagtgaaggacgcacgatgaaggttct tgaattacgcaccagcctctttgagttcgatccagcagctttgggacaaagctaccgcgtcgtggtaggcccgcattaccttgatg cctggcaagctcttcagggactggtaaggaaaccccatcctggcctaccgaccatagggcttgaggaaatgctcgccaccctctct ggagggccggtcaaggtgaacctgtttccgcaaaaagaaggaggcgtctcggcgatccttttgctgaagcccctgcccgttgacac catcaacgaagcgctccgcctttgggctatggacgtgatgcagttttacaaacaagaactgctcgaattcgaaggcaaactggtcg tcaccgacctggtacctatggacactgcccgcttggtcgcgtccggtgacgtatcgtcccttgcgtacacagtcattccttggttg gtaggtcaagcgctgattgcgaagccaatgcaagcagcgaaacctcttaagctttatcaggctgccgacgggtgcgtgctcgcctg ggacgacccagtcgtttcggaaagcgacgtacgctacgccagtgcgcttcacgccatcgagcctgcattggtgctgatctacggcc aatccaagccctatctacagctgcgggtaaagctgactcaggtgatgccgaatctcaagggtcaaaagaagcatgcctgggtcaaa actggcgacctgattgtcaaagcaaaaatccggagcaagcccgacgggcatgggggctgggaaacattttacgaacatcccattga aaagttgctgacctttatgggggttccgtcgtttcctccaataatcgagggcgatatccctgtcgacagcgacgtgcgccctatct acgccattccaccctcgaaccccttgatcgcgtcaggcactggccccctgtttcttgaccaggcaggattccatctgcttgcttgt ctaccaaggacaaagccgcttctggtcagaaaatctgtcgctgttctgcgcgaagaaaagaccaatgctacgggcgaggtgatcga cttgaacgtgatggtcttggcagctcacgcagacgtgatgctaaggcttcacggggcgagttcaaacttggccagggacagcaagt tcttcaagaaagtcgccccaccacgtgtgacgctgtcacgtctggatgtgccagatgcgcagcgtatgctggaggggcagcatgac ctgaacagcctcaacgaatggttattgaatcacgtggttccggcgagcagagtgctcgctcaaaacggcgccaaggtcatgattgt tgagaccagtgcatcagcagcatcacgcgaaactggactcgatcccaagcacgtcatccgccgggtgctggcgaagcatggcatcg ctacccaattcattatgcacgttgaccccgatgcacaggtgaagaagcgcaagcctaaggaagatgaccgtgatttcaaagcgatc aactcgatcatcgaagcgattcggttgagcggccagcaccctgcccctacacccaaggtcaagtcgatgccggccaacactacggt agtttcagtcctgctagatcgactccaggacaaaggctgggcgaaatttctacccgtgatcacgcgcaccacgctcggtggccaca cccctgaaatcttctggtttgagtctggcgcagagtctgcaggcaaatggttcagctacagcgcgggactgactgcgatccatgcc acggacacgctgctgacgcctgatcaattgaaaacactgatcacccaagcccttcttgattgcaaaatcaatccagctgactcgtt gatcgtctgcctcgatgcagacctgagaactttttatgcaggcctaaaagacagtcctggtgaggggctaccaaccgtaccggacg atgcagcagtagtgcgaatccgtgcggaccatcaggtagcacagatcagtggtagccacaccttgtcgccgcaagcagcccactac attggcacgaaggtcggcgcgttccagtcctgtgagagtccctcagtgttttactttgtgtctccatccaagcagtttggcagcgt tcgttcgcagcgtgacaacacccgttacgacgtacgggagagagatcttcgggatccttggcaacagctcggcgtcacggaaattg ccatcatccagcctggagcctttgacggtgcagctgcggttgccgagcaagtggcgttgctctgtcgcaacccaccactgtgggat ggtcatctgcgcctgcctggcccgatgcaccttggcaagcaagtagctgcagatcatccagttatggaagcgcggcgaaagacaga ggctaatcgatcagccggttaaagccgcctggtaaccgttcattactagacacgtataagtcataacacccagcatttcacaaaga gcgcga (SEQ ID NO: 63)  67 pLG069 atttgcctgagacttatttcccgtggcgcttagctagctaagagtgggcatcgtgagcaccattgatgatatgaaatgacggtata gcaatttaaccgtctggatttcaccagaaattagtgattcaataggaaattaaatacgttttatatttcaatgtgtatcaaaatca ttcctgaaatttcctggtgctatatttgatgaaaacggataaacattctgttgattttaataaaattctgtctttcgatttagagc ttacgcgtgatgaaaagttaaggcatatgggggccgtgctggcggaacgcacgttgagtttgaagataaatcaggatgaagcgatt catcaattggatgaaatggcaggcgatgcagatttaatcctcggtcataacatactggatcatgatttaccctggattgccaaaca acgcgtacgtgctcaaatattattagataaaccaatcattgataccctttatttatcaccgctagcttttcccgcaaatccatacc atcggctgattaaagactataaactggtaagagatagcattaacgatccagtgaatgacgctaaattatcgcttcaggtattcacc gagcaaatatgtgcgctgcaagaaaagccgctggctcagttgcagctatatcagtatctttttgagcacggcgttgccagccattt cagtacacgtgggatggccagcattttttccgcactgacgggtcaggcgtccatatccgccgtagttttacctacgctagttaaat cggttgctcagaataaagcatgccctaaccagcttaatcgggttattggcgatgctcttaaacagcctttgcgcttactaccattg gcttttgcctgtgcctggctccccgtatcgggagggaattctgttttaccgccctggatatggcgccgttttcccgtcaccgctga tatcatccgcgaactgcgtgagcaaaaatgccagtctgaaacttgccgctactgctgtgaaaaccatgatgctcgtcggcatttac agaaaattttcgagctgaacgattttcgtaaacttcctgatggctcgccgttacagcgcaatatcgttgagtacggattagctagt cgttcactgcttgggatattaccgactagcggagggaagtctttatgttatcaacttcctgcgattgtcaggaatctgcgaaatgg ttctttaaccattgttatttcgcctttacaagcgctgatgaaagatcaagtggataatttacgtcataaggcaggtattaaaggcg ttgaggccatttcagggatgctaactttacctgagcgcggcgctattcttgagcaggtccgtaagggggatattgcgattctttac ctctctcctgagcaattacgtaaccgcgcggtaaaacaagctatcaagcaacgtcagattagtggatgggtttttgatgaggctca ctgtttatcaaagtggggccatgattttcgtcctgactatctgtattgtggcaaggttattgaatctttggcgcaggagcagtctg tgcagattcctccggtattttgctataccgcaacggcgaagttggatgtgattaatgatatttgtcggtattttgacaaaaaatta tcgcacccattagctcgtttttcagggggagtagaaagaattaatcttcactatgaaatcattgcaagtaatggcttgagcaaaat tagtcagattttgaatttgctcgataaatttttttctaatgatgatgaaggtgcatgcattatctattgcgcgacccgccgttcgg tagatgaaatcagcgatgtgttgacccaacagcaacctttaccggttgctcgtttttatgcccggcttgaaaatagtgaaaagaaa gaaatccttgaagggtttattgctaaccgttatcgagttatttgtgctactaatgcctttggcatgggaatagacaaagaaaatgt acgtttagtaatacatgcggagatccccggttctctggaaaattatctccaggaggcagggcgtgctgggcgggatacgctggacg cgcattgtgtgctattatttgatgagcaggacattgaaaaacagtttcgccttcaggctattagtgaagtaagctttaaagatatt tatgcaatatttaagggaatcaaaaagaaagttaatgaaaataatgaagtcgttgccacaagtattgagctaattaatcatcctat ggttaaaaccagtttctctatcgatgataacaatgcggatactaaagttaaaacggggatagcgtggctggaacgtgttggttatg tggagcgacttgataatataactcaggtttttcagggaaaagtggcctttccttctctggaagaagcgcaaagtaagatggcagcg ctgcacttgaatcctgcggcgatggttctctggaatgctgttttacaggcgctattaaatgctaatgacgatgacggacttagtgc cgacagcattgctgatgaggttgcccaatttcttccgcataaagaaaataatacgtcaggaattgaagcaaaagatgttatgcgcg tattgacacagatggctgatgttggcctggtcaccaggggaatgctgctgaccgtacgtatgcgccccaaagggaaagataatgcg aggatcacaactgagttaattcacaatattgaaatcgccatgttagggctgctgcgcgaagctcatcctgatattgaactggggat gccatggcctctccagattgcggttatgaatcaagagattattcagcaaggctatgatagaagtaataccacgttactacaaaata tattatttagctggtctcaggatgctcgagcaaacggtcataaagggcttattgattttcgttatggtacaaggaacagctaccag attattatgtatcgtgactgggcatatatcgaaagagccattttacaacgtcatcgtgtgacaagctccgtactgaattttattta tcaattggcattggatagtgatgaaagcagtatcaaaaaagtgatgctttctttctcactggaacaggttatcgattatttaagaa aagatgttgatattattccaatgatccaacagagacaggggggggatgagcagcagtggctgatggctggtgcagaacgtgctcta ctttatcttcatgaacaacatgccattgtgctgcaaaatgggctggctgttttccggacagcgatgagcttgaaattgcaggctga aaaatcgcaacggtatgtcaaagctgattatgaaccactggctctccattatcagcaaaagacgcttcagatccatgtgatgaatg aatacgccaggcttggtcttgaaaaacctaactatgcccaacggctcgtacaggattactttgctatggatgccgagtcatttgtt ccactttattttaaagggcggcgaaaaattctcgatctggcaaccagcgaaagctcatggaaacgcattgttgaaaatttgcataa tcccgatcaggagcaaattgtgcaggcgagccttgaacaaaatacgttagttcttgccggaccaggctcagggaaaagtaaagtta ttatccatcgatgcgcctatcttttacgcgtgaagcaggtcgacccgcgtaaaatcctgttgctctgctataaccgtaacgcagcg atttccttaagacgcagattgaagtcgttgcttggtaaagatggcgccagcataatggtacaaaccttccacggattagcattgag ccttacgggataccagattgagcggaaagataatgacgaaatcgattttgataacctgctctggaaagcaatagctttactcaaag gcgatgaaacgcagctcgggttagaagttgaagaacaacgtgaatacctcctcggcgggcttgagtatttactagtggatgaatat caggatattgatgagccacagtatcagctgattgccgcgctggcaggtaaaaatgaaagtgaagatgatgctcgtcttaatctcat ggcggtgggtgatgacgatcaatctatttatggtttccgtgatgccagcgtgcgatttattcgtttgtttgaaagcgattactccg cccgtactcattttttaacgtggaattaccgctctacggccaatattattgcatgttcaaattatcttatcagtcataatcagggg agaatgaaatgcgagcatccgatcgtaatcgatcgcgctcgccagatgcttccgccaggcggagagtggagcgcacttgaaccttc ggaaggcaaagttgttatccagcattgtaccggcgcggctcagcaggcggcagaagtcgtgcgccaaattcagtatattcaacggc tgcagccggaatgccctcttgagaaaattgcggttattgcacgcaatgggctcgacaaaaaggagcttatttgggtccgttcagcc cttgcggatgcaggtattccttgccgctttgcgctggagaaagattatggtttccccattcgccactgtcgggagatcgccaatta tctgctatggctacgagaaagagcgctcgagtcgctgacgccagcagagctgtgtcagcaactaccggggcgagaccaggcgaacc gttggcacgatattatttatgaattaattgagcaatgggagctaagccagggaggcgagccattacctgccgcttattttgaacat ttcatactggaatatttacatgcccagcacagccaggttcgctttggcctgggggttttgctgagcaccgtacatggcgtaaaagg tgaagagtttgagcatgtcattatattagatggaggttggcgtagttcgcactctctgcaacctgaaaataacgaagaagaacgaa ggctcttttatgttggcatgacgcgagcgatatcccgacttgttattatgcatgatgatcgtgcgccaaatccctatatcgaacag ttagatccagcggtcatcagccatactgctgcacaagccgttgcgcctgggatcttacgtcgtttctcgatcatcggattgcgcca gctctatatcagttttgcaggtggacatccggctggtcatcccattcattcgttacttaccgatatgcaggttggggatagcgtcca actggtctctgtcgggaataccatcaaggtgaatgctaatcaatcggcaattgcgcagctttcaagtgccggaaagagccagtggca attttctctttccgggatccgcaaaattgaagtgcttgccatgctacagcgcagcaaaacactaacagcagaggattatcaagttgc ggtgaaagtggacaattggtatgtaccgatattattggttgaaacccgtgaagaagccgcttatgacaatattacttgaagcagaat ac (SEQ ID NO: 64)  68 pLG070 tagctattgtgactatgctaaccatatgaatctattgtgtgattatgagtaatgactttttctaatatttgatttttaatgtagta acttagctaattttaaaatttgtaaaaggatgtttatgtcgatttatcaaggtggtaacaagttaaatgaggatgattttcgttct cacgtttattccttgtgtcaattagataatgttggcgttctgttaggtgctggtgcttctgtcggttgtggtgggaaaacgatgaa agatgtatggaaatcgtttaagcaaaactaccctgagcttttgggagcacttattgataaatatcttctggtttcgcaaattgatt ctgataacaatttggtcaatgttgaacttttgatagatgaagcaactaaatttctttctgtagctaaaactagacgatgtgaagat gaagaggaggaattcaggaaaatattaagttcattatataaagaggttacgaaggctgcattattaacaggagaacagtttagaga gaaaaatcagggtaaaaaagatgcgtttaaatatcacaaagagttaatttcaaaattaatttcaaatagacagcccggtcagtcgg ctccggcaatttttacaacaaattatgatttggccttagagtgggctgcagaagatttaggaatacagttgtttaatggtttttct gggctacatacacggcagttttatccccagaattttgatttggctttcagaaatgtaaatgcgaagggcgaagcaagattcggaca ttatcatgcgtatctctataaattacatggctcacttacgtggtatcaaaatgatagcttgactgttaacgaagttagtgcatctc aagcatatgatgaatatattaatgacataatcaataaagatgacttttatcgcggtcaacatttgatttatccaggggcgaataaa tatagccatacaatcggcttcgtttatggagagatgtttagacgttttggggagtttatttcgaaacctcaaacagcgttgttcat aaatgggtttggtttcggtgattatcatataaatagaataatattaggcgcgttactgaatccatctttccatgttgttatatatt atcctgaattgaaagaagcaattaccaaagtaagtaagggtggtggttcggaagctgagaaagctattgttactttaaaaaatatg gctttcaatcaagtaactgtagttgggggaggaagcaaggcatattttaatagtttcgtagaacatctaccataccctgtgctctt tccacgagataatattgttgatgagttggttgaagcaattgctaatctttctaaaggagaaggtaatgtccctttttaaacttact gaaatctcggctattggatacgttgtaggattagaaggggaaagaattaggataaacctgcatgaggggttgcaaggcagattagc atcgcatagaaagggggtgagctcagtaacgcaaccaggagatcttattgggttcgatgcaggtaatatattagttgtcgcaagag tgacagatatggcatttgttgaagcggataaagcgcataaggcaaatgtaggcacatctgatttagctgatatacctctaagacaa attatcgcctatgcaattggctttgtgaaaagggagttaaatggttatgtttttatatcagaagattggcgcttacctgcattggg ttcttctgctgttcctttgacttcagattttttgaacatcatttatagtattgataaagaagaactcccaaaagcggttgaattag gtgtggattctagaactaaaaccgttaagatatttgcaagtgttgataaattattgtcgcgacacttagccgttcttggtagtaca ggatatggtaaatcaaatttcaatgctttgttaacgaggaaggtttctgaaaaataccctaactcaagaatagttatttttgacat aaatggtgaatacgcgcaagcttttacaggtattccaaatgtaaagcacactattctaggggaatccccaaatgttgatagtttgg aaaaaaagcagcaaaagggtgagctatatagtgaagagtattattgttataaaaagataccatatcaggcattaggttttgctggg ttaattaaattattaagaccaagtgataaaacacaattgcccgcattaagaaatgcattaagtgcaattaatcggactcattttaa aagccgtaatatttacttggaaaaagatgatggtgaaacttttcttttgtatgatgattgtcgtgacacaaatcaaagtaaattgg ctgagtggttggatttattaaggcgtagacgtcttaaaagaacgaatgtatggccaccgtttaaaagtttagcgactttggttgct gaatttggatgtgtagctgctgaccgttctaatggaagtaaacgtgacgcgtttggttttagtaacgtgttgccattggtaaaaat catacaacaacttgcagaggatataagatttaaatctattgttaatttaaatggagggggtgagctagcagatggtggaacgcatt gggataaagctatgagtgatgaagttgattacttctttggtaaggaaaaaggacaagaaaatgattggaatgttcatatagttaat atgaaaaatttggcacaagatcatgctccaatgttacttagtgcattgttggagatgtttgctgagatactatttagacgtgggca ggaacgttcgtatcctacggtacttttgttggaagaagcgcatcattacctgcgtgacccttatgctgaaattgactcacagatta aagcatatgaacgacttgctaaagaaggtaggaaattcaaatgctctttaattgtcagtactcagcgaccctcagagctttctcct actgttttggcaatgtgttcaaactggttttcgttacgtttgactaatgaaagagatttacaggctctcagatatgcaatggaaag cggtaatgaacaaatcttaaaacaaatatcaggtttaccaagaggtgatgctgttgcatttggttctgcatttaatttgcctgtaa gaatttcaattaatcaagcaaggccagggccaaaatcttcagatgctgttttttctgaagaatgggctaattgtacagaattacgt tgttaattacctgatgtacatggctagtgcaagttggtagcgcatgtctatatgcatttatttgcatgtgttttattgagtgagcg cacaagcttgatgacccgacaggtatgtatttagactgaa (SEQ ID NO: 65)  69 pLG071 gtgcgccttatgtgattacaacgaaaataaaaaccatcacaccccatttaatatcagggaaccggacataaccccatgagtgcaat agaaaatttcgacgcccatacgcccatgatgcagcagtattgaaaaatataacatatccaactgattgtattgaaaatttaaaata gccatataacaaaaggttacacataagctactttttggggtttcaggcaagaaactaaaaattattaacgccatcaaattattcac atcttaataattagcattgaaatttaatgtttttggttctttgtacatgtcaatggcttgtctttgtggcagaatcataaagctat gcaatcattgcattgttattaacacagcatatttttatatacttttaacaccttacctcaaaaaggataacaaagtggacagaagt gcggttgatacaattcgtgggtattgttatcaggttgataaaacgattattgagattttttcgttaccacaaatggatgactcgat tgatatagagtgcattgaagatgttgatgtctacaacgatgggcatttaactgcgatacaatgcaaatattatgaaagtaccgatt ataaccactccgttatatcaaagcccataagattaatgttgtcacactttaaggacaataaagaaaaaggggctaattattatctt tatgggcattataaatccggtcaagaaaagttaacactcccattaaaagttgactttttcaaatctaatttcctcacctacaccga aaaaaaaatcaaacatgaataccatattgaaaatgggcttaccgaagaggatctacaagcctttttggatcggttagttataaata tcaatgcaaaatcatttgatgatcaaaaaaaagaaactatacaaataataaaaaaccatttccaatgtgaagattatgaggcagag cattatctttattctaatgctttcagaaaaacatatgatatctcttgtaataaaaaagatagaaggataaaaaaatctgattttgt tgaaagtatcaacaaatcaaaagtcttatttaacatatggttttatcaatatgaaggaagaaaagaatatttaagaaaattaaaag aatctttcatacgcagaagtgtaaacacctcaccttatgctcgttttttcatcttagaatttcaagacaaaactgatataaaaaca gttaaagactgtatatataaaatacaatcaaattggtctaatttatctaaaagaacagatcgaccatattctccttttttactttt tcatggcaccagcgatgccaatttatacgaattaaagaatcaattattcaatgaagatctaattttcactgatgggtaccctttta aaggaagtgtatttacccccaagatgttaatcgaaggtttttcaaataaagaaatccacttccaatttatcaacgacatagatgat ttcaatgaaacactgaacagtattaatataagaaaagaagtttaccagttttatacggaaaactgccttgatatcccatcccaact accccaggtaaacatacaagttaaagactttgccgacataaaggagatagtgtaatgagcaggaataatgatattaatgcagaagt agtatcggtatcgccaaataaattaaaaatttccgtagacgatcttgaagaatttaagatagcagaagaaaaattaggtgtaggat cttatttaagggtttcagataatcaagatgttgctcttctggcgatcatagataatttttctattgaagttaaagaaagccaaaag cagaaatacatgatagaagcaagtccaataggtcttgttaaaaatggaaaattctatcgcggtggagattcacttgcacttcctcc taaaaaagtggaaccagcgaaattagacgaaataatatccatatactcagatagtatagatataaatgaccgttttactttttcaa gcttatcgcttaataccaaagtatccgtacctgtgaatgggaatagatttttcaataaacatatcgctatcgtaggttcaacgggt tcaggtaaatcccacactgttgcaaaaatacttcaaaaagccgtagatgaaaagcaagaaggttataagggattaaacaattctca tataattatttttgatatacattctgaatatgaaaatgcattccctaattcaaatgtattaaatgtagatacattaacccttccat attggctattaaatggtgacgagttagaagagctttttcttgacacggaagcaaatgatcacaatcaaagaaatgtgttccgtcag gcaataacattaaataaaaagatacattttcaaggagatccagccacaaaggaaataataagctttcactcgccatattatttcga cattaatgaagtcatcaattatattaacaatagaaataatgaaagaaaaaataaagataatgaacatatttggtcagatgaggaag gaaatttcaagtttgacaatgaaaatgctcataggttattcaaagagaatgtaactcctgatggaagttcagccggtgctttaaat ggaaaacttctcaattttgttgatcgattacaaagtaaaatatttgataagagattagattttattctgggtgaaggtagcaaatc cgtaacatttaaagaaacattagaaactttaataagctatggaaaagataaatcaaacataacaatacttgatgtaagcggtgttc cttttgaagtacttagcatatgtgtatcattgatatctcgattaatttttgaatttggctatcattcaaaaaaaataaaaagaaaa tctaatgaaaaccaagatatcccaatattaattgtttacgaagaagcacataaatatgctcccaaaagtgatctgagcaaatacag gacatccaaagaagcaattgagaggattgcaaaagagggtagaaaatacggagtaacccttctccttgcaagtcagagaccttctg aaatttcagaaacaatattttctcagtgtaatacttttatctcaatgcgattaactaacccagacgatcaaaattatgttaagcga ttactcccggatacagtaggtgatattacaaacctcctaccatcgctcaaagaaggtgaggccttaatcatgggggattcaatatc aataccttcgattgtaaaaatagaaaaatgtacaatacccccatcgtcaattgacatcaaatatcttgatgaatggagaaaagaat gggtagattcggagtttgataagataattgaacaatggagtaaaagttaatttcagaagtggattcactcttgctcaagagtgaat ccactaatatcatatcctaatgatatagtttaataaaatctattctggaatcattaggctgagag (SEQ ID NO: 66) 70 pLG072 ccattttttaaaataccctcttaaaggagggtattttaaaattatttgttttaataaaaattaaatattatattcattatcacaac caataaaccgtttattttttacacttgcatactataaagacatgaaagatcccccttgtcaggactacgctaaagataataataac gtctattttcgtcatatataatatttgcttgttgcatttctaaaaaaaaagagtaaaatatcaaaatttaggagttacttttggac ttatatgaaggcaattgacttatttgcgggggctggagggtttagtttatccgcccacaatacaggcgctatagatgttgttgctg ctatagaattcgatagcgcggctgcaaacacctacagaaaaaatatgttagaaaggcttgagcataagaccgaacttttacaggaa gatattttactcgtaggcccaaaaaagttaagaaaaaaaataaagctcaagaaaggcgagcttgatatgatacttggtggacctcc gtgccaaggtttttccagtcatcgaattaatgatgctggtgttgatgatcctagaaataaattacttttaaggtatttcgattttg tttgtgaatttaaaccaaaagcttttttggtagaaaatgtctccggtttgttatggaagagacatgaagcccatttgaaacgcttt aagtttttggcttccaaaaatggttatactttaattcattgcgatgtattaaatgctcgtgattatggtgttccgcaaaatcgcaa acgagttttcattgcaggtgtcagaaatgacattttaaaaaaaagaaataatattgagtttccacctcaagctactcatttcaacc ctaattctaatgaagtaaaaaacaattcaaaaaatacgtggagaaccgcatcctctgtttttgagaagatgaatgataacttaatt caaagatatatatctgaatactttcttaaacatacttcttactcaattgatgaagcacaagagctacttgaaaacctagaatatca agacgcacccataagcgaaaaagatccatgcaacatacatatgataccaactgagcgtatggaagagcgtttcagagccacaaaac tcaatggcagtagaagcgatgcaggaaaagaatttgagctaaaatgtcattccaatggatacgcaggccataaagatgtttatggc cgcataatgattcacctcccagccaatacaattacaactgggtgtaacaatccatctaagggaagattcattcatccatgggaaaa tcacggcatcactttaaggcatgcggcaaggttgcaaacgttccctgatgactatattttttggggtaatgcgacagagcaagcaa gacagattggtaatgcagttccccctatgttaggcacaatattaataaatgcattacttaacataattgcacccaatagataaggt gtaatgtatgaaaaatatcaaaattagaaacttaaatggaccaaaaaatcatttgatgattacttaccttataataatagaaggtg aaaaatggtaatttcagcagcttttcaaacaagagcaaggacaattgatcatctagggcgtgagcaaatagctgattgtccaaccg caatttccgagctttggaaaaatgcatatgatgcttatgctcgtaatgtttctctaaatatatttgacggcaatacacctgtggca actttagttgatgatgggcatggcatgtcgttagatgacattatcaataagtggcttacagtaggaaccgaatccaaggctacaaa aaaagatattccatatgaagatagaaacggaatagatcatattcgagcaaagcaaggtcagaaaggcatcggtcgtctttcttgtg cggccttgggctcattaatgcttttagtttccaaaaagaaagatagccctcttgtagcttgcctgctcgattggcgtatatttgaa aacccatatttgatgcttaatgatataaagatacccattatggaatgcagtgataacaatgaattaatcactgttataccggaaat gtttgatgctttgatgggaaatctatggggtgatggtgatgatatattacgagataaccgtattgaacaagcttgggaaaattatt ctgaattagaaagaaatgaaaataattatattacaaaagaagctatcgagaatactgtaattaatgctttttttgaggaaaggcat tttcaatcttggcctgtgtggaataataaaaccactcacggcacagccatgtttatagctggaattcatgacgatttaatagctca gctatcaacagatgctggttcagaagctcaaggtgcagaggttcgggctaaagaacgctttcttcaaacattaaatagctttgtta atccatttaaaagagaaggcgaagaacagattactgatttcaatacaagtgttgtcgcatggaatggtaatctgcaacgatttatc atcgatgaagttagaaactttgatatttcaaactttgaccagctagaacatatagttgaaggaagtattgatgaaagtggattatt ttccgggaaagtgaaagccttcggagaatggtttgataatattacagtcaaacctaaatctgcatataagaccagaaaagatactc gctttggccctttctttttaagattaggcacatttgaagttataagaaaaaatagtacattatcagatgaacagcatgcaaccttc gaccgtatccgtgatcagtttggtggagtaatggtttttcgtgatgatttacgtgttatgccatacggacgtgaagataatgactt ttttgaaatcgaaaaaagacgttcaaaaaatgctggtttatatatgttcagtaatagggcatgttttggtggtgtatgtataacga aagaacataaccccaacctacgagataaagcaggtagagaaggtataattgacaataaagcatctaagttatttagagagatagtc gaaaacattttaatagaaattgcaaaaaggtttattggccgcgcatcaaatatacgagatgaaaagctagaggaaataaatgctaa acatgctgctttgaaagcagacgaagatagaaaaaaattattacgtaaagagcaaagaagaatcaaaacatcgattcaaagagatc gtatttctttagaacatttaagaaatgaattttatgaaatatcacagcttctaagcgacaagaataattttaaagaactagaggag ctattacagctcaaagaaaacatcgacgtattggatggtaccctaaaaaacctatctttaggttcagtaccaagaaatttagggag tatagagaaagactaccgtcagtatcgcgatttagagattgatgctaaaagtcttttaaagcagattaataactctgtatactcag cgcttgatcattttactgttaaagatgattattcaattgctgagaaagactttcgtagcaaagcagccatattacatgcgaaaata agaaaattttccaataaaggacgcaatatattaaaagaagagatgttgcgtttcgaaaagataacaaacaatacaaataaagcttt ccatgaaaaaacatctcaatatttatccgatctacaagaaaatagaacttcactcaaaaaaacacttgaaaatttagatcttgctt atcagattcaagacattgaaataggtcaaacctacgccccatatattaccgcattagaaagcttaagagaggaaattgatttagaa ggcctcgcgatctcttcagtcaacgaaaatacacggttgaagaaacaggtagagcaagtgaatgcactcgctcaacttggaataac tgtggagataattggtcatgaaatcgaaggtttcgatatgactattgagcgaggtataaatagactgtcatcaacaaacctcgatg aatatcagaaaaatgctttatcaagtattacccaagcacatcaatcattaagcgattcttggcgttttttaagcccattaaaatta tcaggagataaggtaagagctttcttgagtggaaaagatatttttgattatgttaatcattttttcaacagtaaatttgaaaaaga ttcaattgaattttcttgctctactaatttcctagatatttcattatatgatcaaccagccagaatttatcctgtgtttattaatt tagtaaacaactcacgatattgggttaaagaaactaaagaagagcgtcgaattattaggttagatgtacttgatggtttgatatat gttagtgataatgggccaggggttgatcctgatgacgtgtccgaacttttcactatatttttctccaagaaacaaagaggtggtcg cggggttggcctttatctctgcaaacaaaatttagcggtgagtggccatagtattttctacgaaacaagaacagagaaaaaaatac taaatggtgctaattttgtaattaatttcaaaggaattaaaaatgcttgataattctactttcgattacaaaccacatttaaaatc tgcttatattgatccgattagaactgtgacagtcatcgatgatgaatacccaactattgatgatttaatttcaccgaccaaagaca gtttttctcaagacaacatttctcgattaaaagatattattgatataagtcgaagtgaagaatataattggcttttagatgtctat aatggaaaagagaagaaaattcaagagggaaccgtatctaaccgtctttatcacagtgatctactaatcttggactatcatttaga tggagaggactctggatattgtaaaaaatctatagatattattaaaaatctatctgaaaatcgtcattttaatattgttgcagtgc atactaaaggttatgatggacaaaagggttcagttaatgaggtactaatcgatattattacttccttacaggaaagacccgctatt agtattttaaatgataaaatcaaatctagaatagatgatgctttagatgaatgggaaatcgaagatccaagtatcagggaagatct aattaattcagtttctacattagatttacttttcttgattaataaattcgggtcaaatttaagttcaggatgtttcgactacgaag ttcttgatgtttttcataatatatttgatcaaaaaccagacaatataaacatatccaaaatattgatttttaaatggatctcatca gaaaagttacatagatacgctgaccaatttaataataagacatcaaagttctttgattgggggacaaatgaaaaccacaattggat aaaaacagaagacttatttattactgtccttggtaaaaaagacacaccaatcagtgacataccgaatcaacttttggaggctttgt caaactctaaaccacatccgcacaaacttattttatcaaaactcagaagtgaaattgaaagtaatggtagctatgctgcaagtaat ataattaacaaaaaattcttacaggcggcgtggctaaaggaattacttcaaaaagaggatgaatatgctatcaaaacagctgcatg gcaagcagtaactaaattgtgggaagaattagcatacgaaataaaacagagtcttgatgattttacaattaatcttgtccgcgact taaagaaaattaactcacctttaaactatttcatagagaaatctacacttgatgctgaacttgaacaaattaaacatgcaaattgt ttcagttgttcaaaaaaaataactgctcatcatttggttacggggcatgttttggagttcaataataatcactggttgtgtctaac tcctatgtgtgaccttgttcctggtcagaaaaacggaaatagtttactccctgttacgctcgtgaaaatgtatgatgcgaaagttg ctttaaataatacacgtaaaaatatgcaaaacgagcttaaactacccaatttgccagaaatcaacgaagatgaatcaattagacaa atactaaattattccacacagaataatctattgttcgttcagtctgaacatgacgggaaaatacatattcttagtttcaccgttgg actcgatggcaaggcaaatcctaaagcaatggattgctatgtggaaaatcaaggtattttctctgaagataaaataatagcactaa aatatgccaagcccactgaaaatgaaatgaacataatatccgtagaagcaaaaatagttgctgaattacgctacgaatatgctttg aatttattaggtagactcggtgtatcaaaatctcgagtcggattagattttatcaactaaggtgcgttagcacgcacctagtctga caggtaccagttgtttatataggtatctgtcagactacatcctctttaggtttctctcgcccagataattttttccatcaagtgac attttcattgatgtctaactctcagacattaaagtgtctaacttccttattaatgtcacaagcaacaattgaatttcaccgctttt gcgagcatgatcgcaataatatcagcccgttacccggttaattcctatgacatcactcgaaacactgcaatcggctatctctaacg tctctgtatggcgtcagggtgatgtatgcgcgccgcataaaccgttgctgctgctgtatgtgttgtcacagtacaaagcaggccac ccgcgcctgtttaactacggcctagagatccacgaaccactcactcgcctgctaaaagagtttggccccaagcgacgcactgacta tcccaatatgcctttctggcgactcagaactgacggcttctgggaaattgctaatgcggaaggctgcaaaccccgtagaggcaaca cccagccgacaaagaaagagctgattgataatcaggtagcggggggttttgatgaaacagcttaccagcaactgcttgcacaccct gaagtaattgaccaactggcccagcagatcctgatggatcgtttccccgagagtattcagcggatcctcgccaaccaactgggtct ggattttatcgaccgttcaaagagccgcgatccgcgtttcagggatatcgtgcttcgggcttaccattcgcgatgtgctttctgcg gttacgatctacgactcgatggtgcgctggttggtattgaagccgcccatattcactggaaaacctatggcgggccgtgtgtggta aacaacggtctggcgctatgttcgctgcaccacgatgcttttgatatgggcgcattcgggctggatgaaaaccttaccatccgcat ctccggcggcgtcagccgtagcccggtggtggataacctgttctggcaacggaacggccagcagttacaccttcctcacgacaaat cgctgtggcccactgaacaatacgtcggctggcatcgtaaacagatcttcaaagcctgagaccgtgagcttcgcaggtatcatcga ttgcccaaactgctttatcccctacaacggataaattgcttttaacccctatagcggataaatccagcacaccagtgttggacttc agaataacgaatccaaactctagccctgagacaccaggctcttgattattattgataccgtattaatctgtacgaagtttgacccg c (SEQ ID NO: 67)  71 pLG073 gtaacaccgttgaacgtcggctgggtgttgttcataatccctttaaaaggtctggggatggccatgacctcagggcggtagcgtga ccaaagttcatatccataccaattatttttatttaaaatatcaacttattcgagttgttttatttagttcaaagaaggtatcaaat tgatagttatagattttttttgtggctgtggtggagccagtgaagggctacgtcaggctggctttgatatcgagcttggattagat attgaccaacaagcatcagaaacatttaaagctaatttccctgatgcaaaattcatccaagatgatattaggaaaatcgaacctca agatatctccgacatcattgatattaaagctaaacggcctttgttactgagtgcatgtgcaccatgtcaaccattttcgcaacaga ataaaaataaaactagtgacgactcaaggagaaatctactaaatgaaactcatcgttttattagagaacttcttcctgaatatatt atgcttgaaaatgttcctggaatgcaaaaaattgatgaagaaaaagaaggcccatttcaggagtttattaagctacttaaagagtt agagtataactatatatcttttatagccaatgctgagaactatgggattccccaaagaagaaaaagactcgtgctcttagctagtc gagtaggtaaagttaccctaccagagataacccatggtaaaaataaaatcccattcaaaactgtacgagattatatccaggacttc acaaagttatgttcaggagaaaccgaccccaaagatcctttacatagggctggaacactgagccctcttaacctaaaaagaattat gcacactccagaaggaggggatagaagaaattggccagaagagttagttaataaatgccataaaaattatgatggccacacagata cttatggaagaatgagttgggataagcctgcgcctacacttacgacgaaatgtaatagttactccaatggtcgttttgggcatcct gaccccactcaacatagagcaattagcataagagaagcatcaagattacaaacatttcctttaagctatgtttttaaaggttcgct gaattcaatggcaaagcaaatcggcaatgctgtaccttgcgaactcgctagactatttgggctacatctcatagaaaattgtacta ataaggattcatagatatatggctaaaataagaacaaaggctcgagctttggacatgcttggcagacaacaaattgcaggtatacc tactgccttgagtgagttatttaaaaatgctcatgatgcctatgctgataatgtcgaagttgatttttttaggaaagaaaatcttc ttatcttgagagatgatggattaggtatgacaaccgatgaatttgaagagaggtggttgactattggaacctccagcaaattaatc gacgatgatgcaattaataaaccagcagtggatagtaataaagcctttcgccctatcatgggagagaaaggaataggccgtttatc tatcgcagcaattggaccacaggtgctggttcttactagggccaaaagagacaatgagcttaagccattagttgctgcatttgtta attggagtttatttgctataccatcacttgatcttgatgatatagaaataccaattagaactattatcaacgacgaatgcttcact aaaaaaactcttgatgagatgattgagcaagcaagaaataatttagactctttatcacacaaaatatcaaaatcaaaagtatcaca aataaatacacaattatcatcttttgaatttgatcctattctatgggaaaaaaaattaggtgggctaagactatctggagatgggc atggaactcacttcataataatgcctaccgaagaaatattaatagatgacatttccacgagcgatagcaataaaacatcagagcag tcttctcgcttagaaaaagctttattaggttttacaaacacaatgtacagtgattcaaaccctcctattatagctcgttttagaga ctatctggaagatggtgagtgcattgacagaattagcgaatcaattttttttacaccgcaagaattcaatcttgcagatcaccaca ttgaaggatggttcaatgaatttggtcaattcagtggaactgtttctgtttatggtgaagagccaattcatcatgtcgtgacttgg aaaaataataatcaattaacccaatgcggtccatttaaaataaaattagcgtatattcatggtcggcttcgtgattcacgcttacc catggagttgtgggcccctctgaaggagaaaacagatagatatggtggtttatatatctatcgagatggattaagaattttgccct atggagattcagatacggattttctaaaaatagaaaagagaagaacgttatccgcttctgaatattttttctcatatcgacgtttg tttggagcaatagaattaacaaaagaaaacaatgcttcattagttgaaaaagctgggcgagaaggattcattgaaaataagccata taaacagtttaaagaaatgcttgaaaatttcttcatcgaaatcgcaagagatttctttaaggacgatggcgatatgtctgaattat ttgttgagacaaagcaacgtagaaatgaagaacatgatttgttatctaaaagatctaaacaaactaaagctaaaaaagatagatta aagaaagatctgtatgatttttttgataagttagataatgattactggaatattgaaataaataagctaatcaataaaaacgagga atatttctccagtacagaaataacagacaccaatatagattatgtatacaataaaattaaagaacaaaatgatgctatcattaaaa atctacgtaattctgtggatataaagaaaccctctggagttggattaacaaaagagttatctaatttatgggatagatatcaaata gaaagacaaaaaatactgttatcactaaatgagctaaaagataacgttgatagaaagcttatagaactggataataaaaataatga ttttctcaacttacggaagagacttgaagattctttgaatctacaacaaagttactatgaaaaagaactaacaaagttatataatg acgctaaaaatgctttgaaagatgtgcaatctaaagcaaataggttaatttctgataataagaaaaaacataagagtgaactaaaa aacatttcttatgaattccaatcaactaatctcaatggcaaagatactgcgtatatattggatgtaaaaagaaatctagaaagtaa aattgagaatacttcaaacgaagtgattaatgaaataagaaaactaaccgaccagattgcaataattagtgatagtaccacttctg aaaatttatcatcggctcaagtaactgaagcaatcgaaactgaacttgaacatttacgagaccaacaagcaaataacgcagagtta atactacttggcatggctctttctgtagtacatcatgaatttaatggtaatattagggcaattagaagtgcgctaagggaattaaa agcatgggctgacagaaatcctaagcttgatattatataccaaaaaatcagaactagttttgatcacttagatggttatttaaaaa cctttacaccattgacaagacgtttaagtcgctctaaaaccaatataactggaactgccattttagaatttatcagagatgtattc gatgatcgtcttgagaaagaaggaattgaattattcactacctcaaagtttgttaatcaagaaattgtaacttacacatcaaccat ttaccctgtctttataaatctaattgataacgcaatatactggcttgggaaaacaactggagaaaaaagacttatacttgatgcta ctgaaacaggatttgttattggtgatactggtcccggtgtttcaactagagatcgagatataatatttgatatgggatttacacga aaaacaggagggcgtggaatgggattattcatttccaaagagtgtttatctcgagatggatttactataagattggatgattacac tcctgaacagggtgctttctttattattgagccatcagaagaaacaagtgaatagcggatataaataaatgacaagctctactgat tttcataaactttctgaagactgcgttcgccgttttttacattctgtagttgctgtagatgacaatatgtcttttggagctggtag tgatactttccctacagacgaagatattaatgctttagttgatcccgacgatgatcctacaccaataataacagcatcagcatccc caaggatagaatcaactaaatcaaaagcaaaggtaaaaaaccatccttttgattaccaagctctagcagaagctttcgccaaagat ggtattgcttgttgcggattattagctaagagttttaatgttgaagaaagagatataattacagcatcatcccacaaggcagatat aacaatacttgactgggatatgcaaagcgatagtgggcaatttgctattgaaataataaaatcgataatcgtttcagatataaatt ctggaggacgtttacgtcttctttctatttatactggtgaacatgttactgctgttataactaagttgaacaatgagttaaagaaa acataccgtagcgtaataaaaaatgatgatagtatttttattgaagataactatgcactcgaacaatggtgtatagttgttattag taaagacgtttatgaaaaagatcttccaaatgtgttaataaaaaaattcactaaccttacagctgggttgctatccaacgccgcac tctcttgcatttctgaaataagagaaaaaacccatgggatattaacaaaatataataataaattagacactgcatatgtttcccac atcttaaatttaataaaatccaaggagtcaagggcatatgcttatgaaaatgctcatgattatgcagtagatttaatttctgaaga aataagatcaatattgcaaataagtgaaaacttaaagaaatctctaagcaaaaactccttatcccattggcctatttttcactatg caaaaaatggttgtaagaattttctattaactggaaaaaaacaaaaagacttatcagtagaacatctaaggaatatactctctgct gattctttagaagaaattcaacacgctattgaacacgcatctttaggtaaaaaggaatacttaagccaagatggtgaagaagataa aaagttaatgcaattatgctctctggaaatcacgcgcaggagtttaagatatcattctcatatagataatgtgtccttaaaacaag gaactttacttttagatgcatataattttgtctatctatgcatacaaccattatgtgatagcgtcagattgcatgaaaaagccgat tttttattcctcaggggaacactggacgataataattacaatttgttaatcgaagatgaatatggcggtttttataaaattaaaat gccggcaaaagcttctaatattatttcattttcatttggagtcgaaaatggaaacggtgtcatcatagggaaaaagaacaatctag ttaatactgactatatctcattcgttcctttactcgttgaaaaaatatctactccaaaagtattgaaatggatcggggaaataaaa acaacgtacgcgcaaaaaataacaactgatattgttgctaatctgtcaagaataggtttagatcaacatgagtggttacgaataaa atcaaaagatatataaatgattatatatgccgtcgttttataaaaactggcggcatgtatatctagttagtccatcatagaagtca agaaatttagtttgccctatatcttatagaaaatatattttatatgcttaaaaaacaccatctttataagatggcatttatgtgct ttgtttcgatcaattacaactg(SEQ ID NO: 68) 72 pLG074 gattattatccagcctttgcgcaggagagggcatgaactgctcactctgatagccgctcttgccatagttgagcttactccacaaa agtagacacattctgttcttacctagacgcctgctcaaaggcggccgggatgactatagcggtgatccagattgtacctgatccct atacatgatttgtatcattgtcaagctttttgaacgatttaatctcttattggagttcatgatagccacttgaatttcgaaaataa ggtactatatctagtaaagtcttagtcaatttttggtatatacagtggaagtggaaccatttcgtgtcctttgtttagatggcggt ggaatgcgtggcgtgtatcaggcgacgtatctcaatacatttgcacagcgtctgcataactctggtgaaggagtcttagatccagg aaaggcatttgatttaattgtgggaaccagtacgggaggcatagttgcctgtgcgctagctgcgggggtctcacttgaaaaggttc ttgcactttatcaagtgcatggcggaaaaatattccctcggcaacgattacgtgcactacctcgagtggggaagtatgtccgtggc ctattttctggtcttgcgtctggcgaccaggctctgcgagcagtcctttctgattcattcggtaccgaaactatggggcaggtcta tattcgtcgtggaattggtttagccatcactacagtggatctgaataggcatgctgccacagtttttaaaacccctcatatgagtc gtcttaatggacgtgacaacgatcgactattagtcgatgcctgtatggcgactagcgccgcccctatcctgagatcaatagctcgt ctaactgaacctggcggtggagccactgttgattatgttgatggcggtctctgggcaaataatccgggggctgtcggcatgataga agctcatgaaatccttcagcagagaggagagattgaacgtccgattcatttatttatgctcggtacgcttccattgcaaggaggtg aagaacttaagagcgcagataaattacatcgaggtgttttggggtggggagcagggattaaggccatcacagtaagtatgaattca caggcagttgcgtacgactacttggctcggaaaatcgcagaattgcgaggatatggaagttttgcatatcgactcccagcacaatg cccatcaggagaactccagaaatatttggaaaatatggacgatgcacgtcctagggtgcttaatgcgcttgcccgacaagccgtct cagatgttgattacgcttgggctacggcagaatcagtaagtaaaatgggcgcgtttcgaactgcattggcaagttcgtccaattat agttgtcataaatccgaggaacaccatgaccattattgattgtaataaagagatgagagggtatcactcagaagaggtaaacctct cgaatgcagagcaggcagaaatgcgcggccgccgcgacaatggtcgaacaaggctccgaaacggattgacaaaggctggtcatcct ttgccgaaggagttcagttctcaaggctcttatgcgatgcgaacaatggtccaggatgatgcatgtgactacgatattgatgatgg cgcgtatttcgataaagaagaccttaagaactctgaaggcgattatcttagtgcgctagatgttcgtaagcgggttcggaaagcat tgaaagacgaccgattggcatatgatgcggttgtcaaaaccaattgtgtgcgtcaaatgtatcccgatggatatcacattgatatc cccatttatcgtacgacctgttctaaagatatttgggataatgacatcatagagtatgaattagcaagtggcgacgaatggaccaa atcagatgcacgtaaggtaacgagttggtacaacgatgcggttggtaatgaactgaaagcgggggaatctgataccagtcagatac gcaggatcaccaaacttactaagaaaatggctaggagccgtaatacctggaaaaaaaagacaaccagtggcatttgtatttcgaag ttagttgtagacaatttcgttgcgcgctcaaatcgtgatgatgatgctttgcgtgatacctggaaggcaatcaaattgcagttaga agtcagtcaacgtattacccacccggtgtttacggacaaaaatcttgctgaggaaggagacgaatgcgttatttttttccgggaat gtttgggtgaggtgctggaaacattaaaggtgctcgacgagcatgactgcacaagtaagaaggctggcgacgcttgggatgaggtg tttaatacaacttattttagcgcccagtgtaccacggataacactacatctaaatcgctgctacggcctgcagttgcggccactgc tagcctgtctttccctagttatcccgtacaacctaacaaatcatcggggtttgcctgatgaagtgggctatagacgatcccgtgcg tttcctgagggagaaggatgaactcacacatcttgaaaccgagacgggttggctaagcacggcttggcgtatatctgaagagggct cgatcaccgttgatatcgacatgtttatccatgggcgattgtttgctggggaaatgacatatccggacgcgtttccggattctccg ccctacatacgtccgcgagataaatcagagcgatggactaaccatcaatatggcgtgggtggttcactgtgcttgcagtggcgggc agataactggcatagtaatgtgactggtgcagatatggtacgcagtgcgcacgagttgctgagtacagaacagcatcctgaattac ctcattctgttccctctgcgcatcgcttgacggaggggcaaaaccttaatttcgtatttcgacgttatgtccctacctccgaagtc gaaaacatatttactatgctcccacttcagtctagaacccgaatatcatcttcaactgtgtataacgaagggtcggcggtaatgtt cacagccagagtcgctgacgaacaggatgagcttcgaaatgttaccgatatccctcaagggctcatcgattttgttagtattttgt cgttgtcctatgagggctgggtctttagaagcgactactttagccagaggcaatccttagaatctgtagaagcattaatccagata ttgatgatggccggttttaacaccgatgacattctggttaaggaaggggataagttcaaggctaggacgatcatattattaggcaa ggaatggtcatcactgcgagtattcctgttagattctggggagcaaccagtgctgcgggagcatcgagttgttagatctccgaact caaccttaagactttcggaagaatcacagaagttgagtaagatccgcgtaggaattgttggactgggatccgtaggtagcaaaatt gcaatttcacttgctcgttcaggtgtcagacaattcttattagtcgatgacgactatctcacgcctggcaacttggtgcgtcatga gttggggtgggcccatgtgggagctcataaggcacgggccgtaagcaatactttagcgcttatagcggctggtgtgaaagtggatg taaagactatgcgtcttgcggggcaggaatcggcggtgacagcagcggctgcactaaaggatctgtctaattgcgacttgttgatc gatgctacagctaatccagaagtttttttgctgttagctgcgactgcccagcgaaatggaataccgatgtgctggggggagatatt cgcaggtggttacggaggcatgatcgctcgagcacgtcctaaacacgacccaaatccattagctgtgcgtgacgcttaccattctt atctctcaaccctccctgaagcaccatttaagaatatggctagctatgatgggagtgatgaacaaccacttatagcatacgacagc gatgtgggctttattactactgcactgacacggttggctgtggatactgctctatgcagagagccaagcgaatttccgtactcttt gtacttgctgggtatgcgacgtgaatggattttcgaggagccatttgacacacggccagtcgaaataagtggagaaggctgggaac gcgacgaaaatgctgtgagagatgaagatagggtcgcagttgcaaaggcattggtaaatatgtttcaaggaaaacaaagtgctaac actgatcctacctcctaagcagcatgagttaatgatgactgcactccaaaatgctggtcaacgcgaagtcggcgggattcttatgg gtgaacatgtcgggacaaatactttcatcgtccgggagataactatacatcgccgtggtacgtttgcttcctttgtacgacgtatt gaggatgctattggtgggctccgtgttttttttaaaggaactggatacgattatgttcgcttcaattatatcggtgagtggcattc tcacccttcatttgagccatacccaagcagaacagacgatctgtctatgttacagattgtaaaggatgaaaccgttggtgcaaatt ttgtggctttgttgataatcaagctcggacctgatggaaaaatggtttcaacagtccatacatatcttcccgatggttcgaagatt ctctcaactcttaagattcagccttaactcagaatgtcagattgtgaaattcatcttctagaggctaattgaagcatgctgattat tttttgaggcggaagtatgttgcct (SEQ ID NO: 69) 73 pLG075 aactcacccgctctgaacgagccccttgaaacacaagacaccgtttttcccttaccataagggataggcaaacgactgtgtttatg actaccagcagagacaaaaccatcgaagtgctcggccacccatttgcgcctctaggttgctacgagactgcagaggatccatgtag cagattacctcggccatgaagctgctaacggaagcgaagccatagaccgtaggcgatacacgtacgtatggctttccggaagggcg atcctagtcaactgtctgatgtccgccaaatctttctcaatactggtcattcaccttttccttgaccggctgtcaggcccaacgtg cattcagatcgtcgcctaaatttgttgcatcacgtagagtctgccgcgtgctcgcccctatgccagactagtctgatgtggcggat gagataggtcacgacggtggtggctcggtagagtcggcatcgccgagtcaacgatggaacgtaaggggcgtgaatgcaaatcagcc gtaagctcaacctttatgagatcgaggatctctaccagtcgcttggtacggattccaatctcaggcttcctatcagcatgagccac ggcggggggttgggcgtggatgcttcgctggcccagttcatcgtcacctgggcacgtgcttgcgaaaaaaccgtccttcacctata tgcccccgctggcgacgacgccatgacgcaaatcacgcagttggcgcagagtgcttctgggttcttcgcgctgatcatgtgcagtg aagtccacgctcagaatcatcaactgatcgatcggcgggaagcgcttctggcgatcaggccccttgtcgatgcgatgttcgcaggc gaccttcgtaacacctccaacatccgaggcgcccgtccaacggccatcaatctgttctgcgtgaacaacgcaaagcgtgagttcat caagccgttttacttcgatcacgccgtgccgaaagtccagccgagatcttggttctcgactctcttggagacgtcatcgaagctga tgaatgctcgcagtggacaaggggcactgcttaggtcaggtctcccggcattgggcagcgtgctttgggagttgatctccaacgct gaccagcacgctgtcactgatgtaggcgggaacaagtacaagaaggcgctgcgtggcacctccatcaaactcaaccgaatgagtcg tcaggatgcgctgatgtattcagaccaagagccggagttggcgcgctttatcctgaagcatttcctgagagctgaggtactggact tcctggaagtctcggtcatcgacagcggtcctggactggcacggcggtggctgacggcgaaggaggggcggccagtagaaagcctg gaggagctgagtcttgaggctgagcttgaggccacgctcgattgcttcaaaaagcacattacatccaagccgcagtctccgaactc gggtatggggctgcataacgctgttcaagcactcaacaagctcaaggcgttcgtacgcgttcggacgggtcggctttcactgcatc aggcttttcagggaagtgatgagattatggagttcgatccgtcgattcgatacggtggccgtgtgttggccgctgtggaaggcact gtcttcaccatctgcattccggtgagctgacatgttcgatctcatggattttgaagtcgagttgcgtcagtcaggtaagccggttc atgtggtggttttcttcactggccctgatctcctcacagacacgcaagcggctcacgctctacagcaccaattgtcgggttacgtc atgcctgacctagtggtgtttctgatgcctggttacaccttggatgaattccgagcacaccaggcaaatgctacatcgcccctgat ggcggagctaagccgtaaaggcccaggctcgcctcgcacctacgcgagtgcgttctatgacgtgaatggtgccattaccgagtacg tcaatatctctggccctgaggagcagttcgaggaactcatcaagcacaactctaacgctatcgcgaggactggcctgacccacctc gtcgaacgctccaacgtgctgaagaaggcgcctgcaggcttcttctactcaaagccctcttctcgggcttcgaactatttcattcg ggcggaagacctgctctctgagaccttgcatgcccactacctggcgtttgcatgcctatctctcatcagtaaggcaacggaagatg ggatggggacgcccgataccctgtatctggacacaatcgcattgctgcctctggcgctgtccatgcaggtgtacctcatgcgattt gagcagccgggctttgcgaatatccggtcattccattcgcacgaaggcctaatcaagggtgggcctttgcccaaggcagtttccgc cctgtgtctcatttccgcatcgacccagtgcggcctcgcgcagcaatgggtgaaggtaaacagtgctccgccgacgcgcgtggcca ccattctttcatttgagcgctcatcggactcctgctccgtcttgcacacactgaagcagcccgaagactttgaaatgttgggggag ggtgaagcgagcgggattcgtctaattcggatccatggcgagcggttcgttgctgagcacagtgaaaccaagctgctgaacatcgg cactgatcatgcgccgcccctgctgcaatccaagttctactcgttcatgggggccaacctgttcagctgcttcacccatgaccggc caggactgaggcctcggacagtgcatgtcgataaagataacctggtggctgccagcgatttcggtgaatggttcgacagggtactg cttgaggaagctgtcgcgtcgacccgttggatcatccacgatgacgacgctgccagtgcggccctggccgatcgagcgatcgctta cttagggatgtgtggcgtcaaggtcggtaacaaggtctccttcgatgacttcgatgccaacacgaattttgacgggtctgtcatcg tcattgccgctgctgccgaacgtggctcacgcctgcagagtgtgagccgacgcctgcgtaccgctcagcaatcgggtaccaggctt tacattacgggggcactcttcgggcgcagctatcaactgatgaaggatctgcagagcaacctgacgcaacctgccaaggatcacag ccggtatgttttcaagacgtacatggagatcccggcagcggagcttgcctgcacgagtcattgggccgaagagcagcggctgctca tctccttgcattcatttgcggaaactttctcgccagcgattacgcagcgcatggaagtatttgatcgcgcctctactggggggctt ggtctgaacccattttggccgagcagtcacaccgggcagccgatgacacttagccgaggctttgcgtttgtcgacggtacgaagga tgtgaggggcgcgacgtcaacggatatttacctaaccatcttgtggattctgcagaatgcccggtacagcggtaaggtgcagaacg ccaagcggcttgagtccggtgagcttcagcaggtgctcctatcgccggatgtgttctcgcgcttcgacgatggcgttatccaggcc gcattcttgcgcgcagcggtgccggcggagcttgactacagggctcatgaaacccacagcctggccatatcggacatcattcagcg catcgccgcagggtacggacatgaacgtggtgaagccgccatggagtttgtcatggccttggctatcgggaagatacgactgcaca aggatgtcgataaccggctgcggagtaacttgatcaatatcttgacgccgcacgttcaggagatccgttatctgctggatccgaat tacgaatcaccgttgtgatcaatttccgctaacccgttgcatgcgaggtatccagttaccggcaactcagctcatggctgagctga accctggttgctcttctagtttcgatggcttgccgattgccgggatcacccacctgcgtcggttctgcgacgaaggtctaagggca gggtggtggcacctggcttgctcattccgtttgacctcgccaccat (SEQ ID NO: 70)  74 pLG076 cgctcagtccggttggtggttttggttggtttggcgattgctcagatcgcacaatccgggctgagttccctttcagtgatctacta ttccgcgcagctatttagtggatataatcacgctttgaaaaaaaaacgggtcaattactcttcgccccacagcaacgaataaggag aaatttgtgagtaacgtcaacactttccttaaggaaaatttatcttcagtaagtaagaatgtttttgtggctcctggcatccctga aaaaaaactgaataatgtcgctaaagcatttaatgttgtggataacttgaatactgtgctagccatttatgacaatacggtatttg gtagcgcaaaagatggcatcgtttttaccggtgaaaaactggtcataaaagaagcttttgaaagtccttatgacttgttctacagc aatattgaagcagtagaatatatagaagatgtcacggtaaatgataaaggcaaggagaagcgaacagagtctgtttccctcaaact aaaaaatggcgaggtaaaacgaatcaaaggcttgatggagtgcaactataagaagttgagcgacattcttaagcataccatcagtg actttgatgagttcaaagaagaagatcagctcatcactcttgccgaaatgtcagaagctctcaaagtggcttatgtcaaaatcatt gtgaacatggcgttctcagatgatggtcaggttgataaaaaagaatttgccgaaattctcttgttgatgacccgacttgagttaac gactgaatcccggtttacactgcgtagttatgtcggttcagaatccagtctgataccggttgaagaattaattgcgatcattgacc gggaatgtgtcccaagccataacaaatcaataaaagtctctcttgttaaagacctgattagcattttcatgagtgttaatgaaggt gaatataaaaaattcccgtttcttcagcaagtgcaacctttgctgggcgtaactgacgaagaaatagaactcgcagtaatggctat tcagcaagattttaagatgttacgggaagatttttccgatgatgcgctgaaacgcagtatgaaagaacttacggcaaaagcaggtg cggtaggcgtgccactcgctgctgtctatctctctggctctgtcatcggtatgtccgcagcgggcatcacttctgggcttgcaaca cttggacttggtggcgtgctgggtttttcaagtatggcaacaggtatcggtgttgcggtgttattaggtgtaggtgcctataaagg gattcgtcatcttacgggtgccaatgaactggataaaaccaagcgccgggaactcatgcttaatgaagtcatcaagcagacacaat ccacattgtccgcgctaattaatgatctaaattatatttctggaaagtttaacgacgccctggatgcgcataatcggcaaggagaa aaaattctaaaactccagaagatgatgaatgcattgaccggtgcagcagatgaattgaataagaaatctaataaaatgcaaaacag tgcactcaaacttaagtgccctgtttatcttgatgaggccaaactcagttcgctgacccgagagcccatcaaaaaacaattccatg atgttgttctttcattctacgaagaatatcttgttgaagagcaaaacgatgggaagagtgttgaagtgaaaaaacttaagatcaaa gaaaacgcttccactcagcaattagagaaacttgccgcgatctttgaaggcatcggctatttcagagcgggggatgttattaaagg caaactaactgggctattctcataatgaaaaaaccagatactcaggtatcggccttgctggtgcagaagcaccagcttgaacaaag cgagcatcaattgggtgaccttgatgctgctctagaagcgcttaacgctttgcaaactgataccgaagcttctttagatgaaatga ttttggctatggatggtgttctggaacactcaggtatcacgtttgatgaggatatccacacaacggtttctagtgaattcagcgat taccttgaatcctgtttgaccacgtcatcgtccagtatcagtaaactgtcgatgatagaaacaatagcgttcaccagcgatatgga ctgggaaacctattcccagtccatatcgcagtatgcccataaacacaatatcgatttaatagtcgatccgtttagcgccctgatgt ctccaatccaaagaattgctctggaaaaacgtattcaggaagacttgaccttaaagactgcccgctgcgacaaatatgattacatg atcgctggcacctgtggcgttattggcggacttatcgatatttttctggtaggcgtacctggagcaggaaaactgacccagcttgc agataatgcagtggacggtgccgttgagaaattcgcttcagcctttggatggaagggcagttcagaagcaagcgattcgacaaaaa gcgctatcggttttctggagagaaaattcaaaatcaattatgaccatcggcatggcggagatgttgacggtttgttcaggatgaac acgaagaatcaccatattaaaagtctcgcccactccccggacttagtcggtttatttttctcgatcctggatcaatttaccagtac ggcacattttgtggcagacggaaaattggtttccgtagataccgagacttttgagcttaaagggaataacgttgtctctaaggtat ttagtggtttcgtaaactggctgggccaccttttctctgatatggcaggttcttccggtgcagcagggagaggctccggtatcccc attcctttcttttcattacttcagtttattaatgtgggtgaatttggccagcatcgccagtctttcgcaaccgtcgccgtccaggt ttttgagaaagggtatgacttacggcatggattagcgatggcgatccccgtcatgattactgagttgcttgtgcgaatcacctgga cggttaaacaacgttgctatcataagaaggactggggtgaatgtattccttcagcaaataaccctgaactcaggcgaatgttgctt gtggcgcatggaaccttgtgtctgatggatgtaggagatgcggcacttcgttcaggaggcgaaatgattcagttcctcctgagaac gaacctcatcggctggacgaggtttggaattctagcgattaaagaactccatgtctggtataaagcaggcggaattgatgccaatg ctgtagatgaatatatggatcatgaacttcggcgaatgctaaaagcggggtagcgttacggctttgttgaataacattacgtttgg gtgcttggctgtaaaaagctaggcaatggcgtatctgtcgacgcaatgcagaaaaggcaacttaattgcgaaacagaaatgttcgg tgagttgcttgaccgtcctatggcagctaagtgccagaagtcgacgttgctaacatcagtatgtactcatcggcacagtccatgtc agagctattaactatagataaaaattcaataattaataaaataagaaccatctttctaggtggttcttattattaacaataaatat tacgatttcaacgagggttagaatg (SEQ ID NO: 71) 75 pLG077 cctggtcctgccaattgctcccccagccatatgacataatccttttgaataatagggtttttatgcttgtactctagcccattcgc ggtatcattttacgatctctcttccagttttatgcttaccgcctttgcctatcgtagaacaatgccgggaagcgttatcagcgatt aagggcaaggaatgggcttctggatatttgttattatgctggcggttatctggcttctgttttccaaaaagaaaaaatcgccgccc cccagagtaaacaacaaaatcatcaccaaaataaatcattcatctcgacagaaatctctcaataagccagataacagcatgacaaa tatgcattctcaggcctccgatgatgacgaactggcaacctttacttttgtgaacgggcagacggttgaatacagcaccagccgcc agccgtcacgagaaaacgccgcccgtagcaataccactccagcgcgatgggtcaaaccgggagaaagcatcaccattcaaaatgtc gtcattaatcacggttatttttatttcggcgggcggttaaaaacacattcatcaggagaatatggatatctttataacgatgactc cgacgcttcgctggttaatgacgcttttcccatcgagcctggttcacggcattattatgatgagtcactgggatactggcccagct ttgccacactctcccctcgctgccgtggcgcctatcttgactggctggcaagcgatcgcagcgatgcgagctgccccgttggctat gtttttatctatttttacggtctagaacgccgcgtactggccgatggcacacaagaagccatttctgacgatgaattcaaagcatt attcgaagagatatcgcgcctgagaaccgtatttcaggcaagcggttccttccggcattatgcaacgcagttgctggaaatgatga tcgttctccgaccgaagttgctttctatatataccgaaaacgaatatttctcatcgaggagttcattactgttcagattaaatcta gcgactgtggtcgataaaggacaacctatttgtgccgctctggcactggcatggatatactattttcctgattacaccctgcgcac gcctgcccgtcgatgtcatgctgaattttccgcattattcaaacagcgttatactcaaaaatacggtgacggtattgtcgtcaaac ccaataaaacacggttgtatttaagctatacccccgccagtggtacgcttcgggaacttcaggtaaaaaaacagatggatcttccc gatcccagcgttttaaaagccccagttcagaaattaatttctgttgcagaatcctgtatcaacgcgctggatgcctacagtcgcta tctcggtaaaaaagatgcctcaccaagtgatgtcgccgccatcatgctgcttcccgatgaaatactgaccgaagatgcagaacgtc tatttgctgaatttaaacactgggcagatgagaaaatccgtgaacattcaggactggcgacagtggctgatttctgggccagactg ggtatgcctgtaccggataagattaataagaaagaagccgagctgatgcaaaatttcgcccggcgagcaggctacggcattgcgcc ggatatgcgctatcaccttgtcagaccggatccagaaggtcatcttgttttatttcctgaagggcatgcggaattctacgtaccgt cggcggaatttacgtcagtctctgtggcgcttcggttgggtgccatgattgcacaaatggacaagcgcgtggatgttgctgaacag gccgcgctggagaaaacgattaatcataacgatgcgctgtcgccaacagaaaaacgttcgctgcacgcctacctcacctggcggct caatacgcctgcaaatcaggctggtctgaaaggtaaaattgagcaactcagcgataaagataaatccactattggcaacgtgatta tcagcgtcgcctgcgcagatggaaaaatcgatccggctgaaatcaaacaactggaaaaaatctacgccagcctcggtctggacagc agtgccgttaccagcgatatccaccgactgtcaaccgcagaaacaactccgacagctacgttacaaaccccatcagcgacgagcgg cgcgttttctcttgatgaacggatccttgcccgtcatgaatccgacacaacggacgtacgccagttactgaacaccatcttcaccg aagatgaacccgcagacgaatccccagcggagatcccgccacacgctggcgcaggtcttgatgaagcacatcatcaactttaccaa cgtttgcaggaaaaagaacgctgggcgcgaaacgaagtcgctgagctatgccagcagtttaatttgatgctaagcggcgcgattga agcaattaatgactggtctttcgaacaggttgacgccccggtgcttgatgatgacgatgatatttacgttgacctggaaattgcac aagaactcaaaggataatttatgtctggcattcgtattcgtctcaaagaaagagacgctattattcagtcactgaagtcaggtgtt acgcctaaaattggtattcagcacattcaggttggccgggtcaacgaaataaaagcgctgtatcaggatattgagcgtatcgctga tggcggcgcaggattccggctgattattggggaatatggctcaggtaagacattctttttaagcgttgtgcgctcaattgcgctag aaaaaaagctggtgacaatcagcgccgatttatccccggacaggcgcatccacgcgacgggtgggcaggcgcgtaacctctactcc gagctaatgaaaaatctatccacccgaaataagccggatggaaacgcattattaagcgtggttgagcgctttatcacggaagccag aaaagaagcagaaagtacaaatgtgtcagttccgacgattattcaccaaaagctcgccgccctgtctgatatggttggcggttacg atttcgccaaagtcattgaatgttactggcagggccacgagcaggataatgagacattgaaatcaaatgccatccgctggctaaga ggtgaatacaccacgaaaaccgacgcccgtaacgatctgggtgtgcgcaccattatttctgatgcctctttctacgattcgctaaa gctgatgagcctgtttgtccgtcaggccggatacgcgggtctgctggtgaatctggatgagatggtcaatctgtataagctcagta acactcaggcccgcgttgccaactatgaacagatactgcgtattctgaatgactgcctgcaagggacggctgaatatatcggtttt ttacttggcggtacgccagaattcctgttcgatccgcgcaaggggttgtacagctacgaagcgctccagtcccgactggcggaaaa tagcttcgctcagcgggctggtgtcattgattattcgtccccttccctgcacttagccagcctgacgccggaagaactctatattc tgttgaaaaaccttcgtcacgtttattccggcggcgatgcggataagtatctggttcctgatgatgctctgacggcatttttacgc cactgtagcaacactattggcgatgcctatttccgtacgccacgaaacacgattaaagccttcctggatatgctggccgtgctgga acaaaacccatccattcagtggtcacagttaatcgccggtgtcgcgatcgcggaagaaaaacccagtgatatggatgaaataacat cggcagaagatgccgatgaggacggtctggccgacttcagattatgatgaacgaataccagcggctggatccacggatacagaagt ggatataccggcagggatgggccgatctcagggaactgcaaaaaaaatccgtttcaccgatattagcgggcgatcgggatgttctg atcagcgccgcgactgccgcaggtaaaacagaagcgtttttcctgcccgcctgttctgccattgcggatattcagggcggctttgg cattttatacatcagcccgcttaaggccctgattaacgatcagtatcgaaggctggaaaacctcggtgatgcgttggagatgccgg tcacgccctggcatggtgatgttgcgcagagcaaaaagctgaaagcaaagaagaatcctgccggtattttgcttatcaccccggaa tcgctggaagcgatgctgatccgcaatgcgggatggttaaagcaggctttcgcgccactggcatatatcgccattgatgaattcca tgctttcatcggttctgagcggggtatgcagcttctctctctgttaaatcgagtcgatcacctgctgggaagaatcaacaatccag tcccccgagtcgcactcagcgcaacgctgggggaactggaacaggtgccgttatctctgcggccaaatcaacgtctgccctgtgac attattaccgacagtcagactcacgccacgctaaaagtacaggtgaaaggttatctggaaccgctgaccacctcgggccagcaatc tccaccgtcggcagagacgcaaatctgccatgatatctttcgcctctgtcgtggtgattcccatctggtgttcgctaatagtcgca aacggaccgaaagcattgccgccacgcttagcgatctcagtgaagcgagcatcgttcccaatgagttctttccccatcacggatct ctgtccagagatctgcgtgaaacgctggaacagaggcttcaacaaggcaacttacccaccaccgccatctgtacgatgacgttaga gcttggcatcgacatcggtaaagtcagctccgttgtgcaagttaccgccccccattccgtagccagcctgcgtcagcgaatgggac gctccggtcggcgcgactcgcctgccgtattgagaatgctgattgccgaacatgaactgacgccaacatcaggcattgtcgaccag ctcaggcttcagcttgttcagtcgctggccatgatccgcttacttatcggcaacaaatggtttgagccagctgatacccggcagat gcactattccaccctgttccatcagatcctggcgatcgtggcgcagtggggaggcgtgcgtgcggatcagatctggtcacagctat gcctgcaagggccatttcagaaagtccggatctatgacttcaaaacgttattgaaacatatgggggagcaccagtttctgacccag ctctcaagcggcgaactggttctgggcgtcgagggcgaacgtcaggtaaatcaatacaccttctacgccgtgttcagcacgccgga agagtttcgcattgtggcggggagcaaaacactgggctccattcccgttgattccccactgatgcctgatcaacacattattttcg gcggtcgacgctggaaggtaaccgatatcgatagtgataaaaaagttatttatgtcgaggcgacaaagggtgggcagccgccgtta tttggcggacaagggatgtccattcatgatgtcgtccgccaagaaatgctcactatttatcgggaaggcgactaccgcatcaccgt tggcaatcgcaaggccgattttgccgataccacggccaaaaacctgtttgatgaagggctgcactgttttcgcaacaataatctgg cttcggaatgttttattcagcagagacagcatgtctacattcttccctggctaggcgatcaaaccgtaaacacgttgtcggcatta cttatccaacgcggtttcaaggcgggctcatttgctggtgtggttgaagtagaaaaaactacggtctcggaggttaaacaagcgtt attcagcgcacttcaggaagggctaccttacgaatcccgtcttgccgaaagcatcgttgaaaagtgcctcgaaaaatatgatgagt atttacccgagacgttgctgacgcaggaatatggattacgtgcttttaatattgaacgcgtgacggagtggttgcaggggcattta tattaaggggaagaaga (SEQ ID NO: 72)  76 pLG078 cgtgattcagttcgccagactgcagcgttttccatgaatataactccatctggtttagaaagagttccaatctaacgatattggga ccagaatcacaggcggcagtggctttacgcttacaataactattctatcctgacaattttaagcctcgtttgttacgatgtaaccc tataactatgtggttcctcaaccttttttgcccaaaaaatgcccaatgaagtccaaagtggaaaacagatggttatccgttgatga gattgcagattacctcgcgattaagcgagacacggtatacaagtagatcgcaaagaaaggtatacctgcacacatgattggacgcc tttggaaatttaaaaaggatgaagtagatggctggatacgcgatggcaaagctggcgaaaacagtaatcaagaataaaaaagcaaa tttaggagcagtttaatgaaaaccgtacgtagtgcatgccagttgcaaccgaaggccttggaaatcaatgtcggcgaccagattga acagcttgatcaaatcatcaacgacaccaatggccaagagtactttaaaaagaccttcatcactgacggttttaaaactttgctct ccaagggtatggcacgcttagccggtaaatcaaacgatactgttttccacctgaagcaagctatgggtggtggtaaaacccacttg atggtcggctttggtttattagcaaaagatgctgcccttcgaaatagccacttaggatcaatgccataccaatcagattttggctc agccaaaatagcagcattcaatggacgcaataatcctcattcctatttctggggtgagatcgctcggcagctaggtcgagagggtg tattcagggagtactgggaatccggagccaaagctcccgatgaacaagcatggataaatatttttgatggtgaggaacccatccta atcttgttggatgaaatgccaccatacttccactactacagcacccaagtccttgggcaaggaactatagctgatgtagtgacacg ggctttttccaatatgttgaccgcagcgcagaagaaaaagaatgtatgtattgtagtttccgatcttgaggcagcttacgatacag gaggcaaactgattcagcgtgcattggatgatgctacgcaagaactcggacgcgccgaggtatccattacgccggtaaacctcgaa tccaatgaaatctacgagattctgcgtaaacgtttgtttttgtctctgccagacaaaaatgaggtctctgaaattgcgtcgatcta tgcatcaagacttgcggaagccgctaaagccaaaaccgtagagcgcagtgcagaagcattggcaaatgacatcgaatctacttacc cattccacccaagctttaaaagcatcgttgctttgttcaaagaaaacgaaaagttcaaacaaacccgtggtttgatggagttggtt tctagactgcttaaatcggtgtgggaaagcgatgaagaggtgtatttgatcggtgcccaacactttgatctttcgatacacgatgt tcgtgagaagctggctgaaatttcagaaatgcgcgatgttatcgcaagagatctttgggactccaccgacagcgctcatgctcaga tcattgacctcaataacggcaaccactatgcacaacaggttggtacgctattgctaacagccagcctctccaccgcagtgaactca gttaagggcttaaccgagagcgaaatgctggaatgtttgattgatcctaaccatcagggtagtgactaccgaaacgcattcactga acttgctaaatcagcttggtatttgcatcaaacacaagaagggcgcaattacttcagtcaccaagaaaatctcaccaaaaagcttc agggatatgccgacaaagcacctcaaaataaggttgatgaattaattcgtcaccgactagaggaaatgtatagaccagtcacgaaa gaagcatacgaaaaagtactaccactccctgaaatggatgaagcacaggccacactgaggagtggtcgtgccctgttaataatcag cccagatggcaaaacaccacctggtgtagtcggcaacttctttaagggcttggtaaacaaaaacaacattctggtattaacgggcg ataaatcctctattgccagtatagaaaaggctgcacgccatgtttatgctgttaccaaggcagacaacgaaattacagcatcacat ccgcagcgcaaagagttggatgagaagaaagcacagtatgagcaggacttccaaactacagtgctctctgtattcgataagctcct gttccccggtaacaatcgaggtgaagacgttttacggcctaaagcgctggatagcacctatccatccaacgaaccatacaacggtg aacgccaagtcgtgaagactctcacgtccgaccccatcaagctttacacccagattaacgaaaatttcgacgcactgagagcccga gcagagtcattgctgttcggtactttggatgaggcaagaaagacagatttgctcgataagatgaagcaaaaaacacagatgccttg gttgccaagccgtggcttcgatcaactcgctatcgaggcataccagcgaggtgtatgggaggatttaggcaatggctatattacga aaaagcccaagccaaaaaccactgaggtaatcatcagcgaggactcatcaccggatgatgccggcaccgttcgtcttaaaatcggc gtggctaatgcaggtaacagcccacgcattcattatgctgaagatgacgaagttaccgaaagcagcccagtacttagtgataacac gctagcaaccaaagcattgcgagtgcagtttttggcagtagaccctaccggtaaaaaccttactggaaacccaaccacctggaaaa atcgactgacattacgcaatcgctttgacgaagtggcgagaacagtcgaattgttcgttgccccccgtggcacaatcaagtacacc ctagatggttcagaagcacgtaatggtgaaacctacaccgtgccaatccagctcgctgatcaggaagccactatctatgtctttgc tgaatgtgatggcttagaagagaagcgaaatttcacctttgcggcagcaggttctaaagaaataccgatcataaaagataagcccg ccactctggtcagcccctcacccaaacgtatggatagctcggcaaaaacctacgagggtttgaaaatcgccaaagagaaaggcatt gagttcgagcagattagcttaatggttggatctgcaccaaaggtgattcatatatcgctaggtgagatgaaaatcagcgccgaatt cattgaaaccgtattaacgcacttgcaaaccgtgttaagtccagaagcccctgtggtcatgaccttcaaaaaagcctacacacaga ctgggcatgatcttgagcaatttgttaagcagcttggcattgaaatcggtaatggcgaggtggaacaacgatgaataaaaccgttg attttggggcaccgtcagaattcggtatgcatcacttctatgtggagattcccgcagcgccccgtgacgctgttgtgatctatgaa gactatggctttgacggtgaagattctcgccgagaaacagtagagtgtcgcctgatattagccagagagctctggactaagatccg cgatgacgttcgccgtgactttaacgctcgcctaaagattaagaaacaaagctccggtacttggtctaccggtaaagtgaagcttg accgctttcttggacgtgagttgtgcgttcttggctgggcagcagaacatgcctcacccgatgaatgtctggttatttgccaaaag tggctggctttacgcccagaagaaagatggtggctttacagtaaaaccgcagctgaagcaggtcgtgatgatcaaacacaacgagg ctggcgtaaagcgctctattgcgcgctatcggatggagccaatatcaaattggaaaccaaaaagaagcccaagtctaaaaagctac aagttgaagatgagacccaggatctgtttgggtttatggaaaagggagagttttgatggccttgcaaccgtttgaatggagagaca aaccgtctcttattgagcacctgttcccggtacaaaaaatatctgccgagacctttaaagaacgaatggcaagccacggtcagttg ctggtgtcgttgggtgctttttggaaaggcagaaaacctctcatcttaaacaaagcgtgcattctgggctcattgttaccagcaac tgacaacccgcttgaagatttagaggtatttgagctgttaatgggcatcgactctgagtcaatgcaaaagagaattgaggcttcac taccagcatcaaaacaagaaacaatcggcgattacttggtattaccctatgccgaacaaatcaggattgctaagcgcccggaagaa attgatgaatctcttttcgtccatatttggaatcgggtcaacaatcatcttggtacttctgctcacacttttgcgcaactagttga ggaactaggtgttgcacggtttggccataggccaagagtggcagatgtattttctggttcgggtcaaattccgtttgaggctgctc gcttaggttgcgatgtctatgcctctgacttaaacccgatctcctgcatgcttacttggggcgctttgaacgttgttggtgcgagc gcgcaaaaaagagtagaaatagacaaagcccaacgggatatcgttaagaaagttcaaaaagagattgatgagcttgacattgagtc cgatggccgaggatggcgagcaaaggtattcctatactgcgttgaggtgacctgccctgaatccggttggcgtgtgcctttaattc caagtttgattatcagcaatagttttcgagttgttgctgagcttaagcccgttcctgctgagaggcgatatgatattagtatccgt gaagtatcgactgatgaggaactggagttctataaatcaggcaccatacaagatggcgaggtaattcactcgccagatggaaaaac tcagtatcgcgttaatatcaaaacaattcgcggtgactataaagaaggcaaggagaacctaaacaagctgcgaatgtgggagaaaa cagactttgctcctcgtcctgacgatatttttcaggatagattattttgcgttcaatggatgaaaaaaaaacctaaaggatcgcag tattactacgaatttcgtactgtaaccaatgacgacttaaaacgcgaaaaaaaggtaatagaacatgtcgcatccaaattagatga ctggcagaagcaaggtcttgttcctgatatggttattgaagcgggcgataaaacggatgagccaatcaggacgcgaggctggactc attggcaccatttattccatccaaggcagttgctatttttgagcttggtgaacaaatattcactcgcagaaggaaaatttaacttc ttgcagtgcatgaatcacttgtccaagctaactcgctggcgaccccaggccggtggtggtggcggttctgcggctacatttgataa tcaggcgctcaatactctgtacaactacccagttagagcaacaggatctatcgaaaatatcttggctgctcagcacaaccactgtg gaatcagcgagaatgtttcctttgtggttaattcacatccagcgccagagttagatgtggaaaacgacatttatattactgatccc ccatatggcgatgctgtcaagtatgaagaaatcacagagttctttattgcctggctgaggaaaaatccgccgaaggaatttgccca ctggacttgggatagtcgccgatctcttgcggtaaaaggagaagatgagggtttccgtacaggcatggttgctgcttatcgcaaga tggcgcagaagatgccagacaatggtttacaggtgctaatgtttacccatcaaagtggcgctatctgggcagacatggctaatatc atttgggcgagcggccttcaagttactgccgcatggtacgtagttactgaaactgactctgcattacgtggtggttctaacgtaaa aggcaccatcatcctcattttacgcaagcgccatcaggcattagagaccttccgcgatgatttaggttgggaaatcgaagaagccg ttaaagagcaagtcgaatcgttaatcggattggataagaaggttcgttcccaaggcgcggaaggcctctacaccgacgctgacctg caaatggctggttacgcagccgcgttgaaagtactgacagcttattcccgtatcgacggtaaagacatggtgactgaagccgaggc accacgccaaaaaggcaaaaaaacttttgttgatgagttaattgatttcgccgtgcaaacggcagttcagtttttggtgccggttg gcttcgagaaaagcgaatggcagaagcttcaagcggttgaacgcttctatctgaaaatggccgaaatggaacaccagggtgcaaaa accttggataactatcagaacttcgccaaggcgttcaaggttcaccattttgatcaattgatgagtgatgcctcaaaggctaactc tgctcggctaaagctttctaccgagttcagaagtaccatgatgtcaggtgatgccgaaatgactggcactcctctgcgagcccttc tttatgccttatttgagatatcgaaagaagttgaagtagacgatgttcttttgcatctcatggaaaactgcccgaattacctgccc aataagcaactgcttgccaaaatggcggattacctggctgaaaagcgtgaaggtctaaaaggtaccaaaacgttcaaccctgagca ggaagcaagcagcgcgcgtgtccttgcggaagccattcgaaaccagaggttgtaatctatggcgattaagcgcttttcatcccgca cagaaagattagatacggaattcctcgctgaatcgttgaaaggggctgctaagtatttccggattgcgggttatttcaggagctcc atctttgagcttgtaggcgaagagattgcaaagattccagaagttaagatcatctgtaattccgagcttgatctggctgacttcca ggtagctactggccggaatacagcactcaaagagcgctggaatgaagtggatgtagaagctgaagcgctactgaaaaaggagcgct accagattttggatcagctattacattcgggtaatgttgagattcgcgtagtccctagggagcggttattccttcacggcaaagca ggctcaattcattatgcagatggcagccgtaaatcttttattggctcagtgaatgaatctaaaagcgcattcgctcacaattatga gcttgtttggcaagacgatgatgaagaaagtgcggactgggtagaaagagaattttgggcactctggactgaaggcgtcccgctgc ctgatgcgatcttagctgaaatccaccgtgtatctaatcgccgggaagtaaccgttgatgtattgaaaccagaggaagtcccagcg gcggccatggcagaagcacctatctaccgtggaggggagcagttacagccctggcaacgctcgtttgtgactatgtttctggaaca tagggagatctatggcaaggctcgcctactattggctgacgaggtgggtgttggtaaaacgctatcaatggcaaccagtgcattag tcagtgctttactagacgatggacctgttttgattctggcaccttctacactcacgattcagtggcaaattgagatgatggacaag ctcggtgtgcctgctgcggtttggtcctcgcagaagaaagtttggctgggtgtagaggggcaaatactctcacctcgaggtgatgc ctcctctatcaaaaaatgcccttatcgaattgccattatctctaccggactgattatgcatcagcgggagaagactgactttgtta aagaagctggaatgcttctgaagaatcgtttcggtaccgttattctggatgaggcgcataaagcccgtattcgtggaggattagga gatcaagcttcagaacctaataatctcatggccttcatgctgcagatcggcaggcgtacacggcatctggtactgggtactgcgac acctattcaaaccaacgtacgtgagttatgggatttattgggtattttgaactctggtgctgaatttgtactaggcgatgctctgt cgccatggcatgaccatgaacaagcgattccgttgataaccggccagactcaggtgacatctgaggctgaagtttggcattggtta agcaaccccctgccgccaagcaatgagcaccatactgttcagcaaattcgtgactacctgtccattgataataagtcctttggata ttctcatcgtttcgaagatctcgactatatgattcagagtctttggctctccgaatgcatgacacctagcttctttaaagagaaca accctatcctacgccatacagtgctgcgtaagcgtaaacagctggaagatgacggtctgttagagcgtgttggggtgaatacacat cccattaagcgcaacctagctcagtatcagtcgcggtttgtggggcttggcattccgaccaatacaccattccaggtcgcttacga aaaagcggaagagttcagtaagttgcttcagtcacgcactcgagccgcaggcttcatgaaatctttgatgttgcaacggatctgct caagtttcgcatcaggcttaaaaactgctcaaaagatgttgaaacatacggtttctgacgaagacgaggatctagttgaagatgtt gagcacttactttcagaaatgactcctgcggaggtcgcttgtttaagagagattgaaacacaactgtcacgccccgaagccgttga ctcaaaactgaacacagtgaaatggttcttaacggaattccgtaccgatggaaaaacttggctggaacacggctgtattattttca gccagtattacgacacggcggagtggatagcgaaagaactggccaagtccttaaaaggcgaagtggtagccgtttatgctggcgtt ggtaaaagcggcttattcaggggcgaacagtttaataacgttgaacgcgaattgattaaatccgcagtgaagacgcgcgagattct attagtggttgctacggatgccgcctgtgaaggcttaaacctgcaaaccttgggaacactcatcaatgtcgaccttccctggaacc catctcgtttagagcagcgcctcgggcgaatcaaacgttttggtcagacacgtaagtttgtggatatgctcaatcttgtgtacagc gaaacacaagacgagaaagtttataacgtgctgtcggaacgcttacgcgatacatacgacattttcggcagccttcccgatacgat tgatgatgaatggatcgacaacgaggaagaactcaacactcgcatggatgaatacatgcatgaacgaaagaaagctcaagatgcgt tctccgttaagtatcgcggtactctcgatcctgatgctcatctctgggaacgttgcgctacagtactgtcacgtagggacattgta agtaagctcagcgaaccatggggaagctaattatgttgtgatgtggatgccccgctcagccaaggtcctgcacaactatgttggat gctcttttttagagggctacatcatgaattcgatcaaagttattggtacaattctgagtaaatctgtctctcagggtatccatttc gagtg (SEQ ID NO: 73) 77 pLG079 gccagtcgcttgcaaagtattgagaattgatgtttatttgtgttttgaggtggtctttgaaaccaattttcgttgtcaggtcgagt attgggtgcagcagacgctattcaaacattccgtcccggttatccgaaggtttccggctcggtagaaggcctgaagcatgtctctg gttttgaagacggttcgggcttttccgagaggtcggactaccgaagaattgcttgttctcgtcggtgcggctttctcaaatgacaa gcggcttgcggctctcagcgaactggagacgctatttcgcgatggtttgatagtgaaaggcaaggacggtcgctggcgtgcaaagg cagatggtttcaaacccagacatgagagcgtgtcggcttcgagaggtggagggcctgagggcttcgttgatgtcattcacgctgcc aatgcattcttctcctcggaaccgacggcggccgaactacctgatcaagaagacgaaagttcagatgctcccgatccgcaagcgct actgagatattggcgctcggccttgcgtgccgatccacgaggagccacgacccaggttctcgacaaacatggaatcgagtgggcct tgatctctgggcgtggccctatcggtccagaagaagggcaaacgctgactgtttcaatcgaactcgacgcgattgatcctgccttt cgagaggctctggtgcgaagggaaggtcacgagaacgcgcttgcagtgggttggccgatggcggtcggacgacgtggcggagttcc tgtctttcgacccgttggcatgttagcagcagcttgggatcgtaaggatgaccgtctaatcctgacgattgatgccgatgacgttt tggtaaaccctgattgggtcaaaagtgccgctcgtgccagcggctggaagcgcgacgacctcgctgacctttttttcgtggacgat gggctggggctgcgggctcaggattttgtggagaaggtaaggattgccgttgccagtcagatacgtggtcgcgttgtcggcgagaa tctcgccacacagctcgatgcctcggctcaagggatttttgacagcgccgcgatcttcctaccgactgactcttctttcaccgcgg gggctgctcgtgacctggatgccattgcgacatggccgaaggaccgccttgagagaactgcgcttggcgcggtattcgggtttgac cttcaagacggcacggacaaggctgctgcaatcgacgcagttccgctgaacaaggaacagttgcgcgcggttcgatccgcatgcca agcgcctttgaccgtcgtgaccggtccgcccgggactggcaaaagccaagcgatcgtatctatggccgcgtcagtgctcgcagatg gtggcagtgttctcgtcgcctccaagaaccatcaagcgcttgatgctgtggaggaccgtcttggctctcttgctccggacgtccca ttcgccatccggacactgaacccgaatgacgaggcggatacgggcttcaaggacgccctcaaacaactcatcgacagcgaaaatgt gacgcgcaacgcatctgtcgacgaattcgcattaggcgagctcaaaagcgacgcgatcgcgagaagcgaagtggttagcgtgatcg ataagatcacggaaacggaatgcgaaatttccgatattctggaccggattcaagtccgagaggatcgcgggcgccctgacaaccaa gactctgaagacgtggatccgagacaaagtctcttactccgctttgtctcttggtttggatcgcttttcgccaagcgtccccccaa agtagcgccagtgacagatcattcttcgtcccgccgcggaatgaacgtcaaagagcttcattgcgcgctggcagaaaaaagatatg aacgcgatgcgctcgggacacctgacgatccgatcgccttaggcgagaagatccgggaagcgaccgagaatcttctgcctcgcatt ctgtccgcccggacacatctcccagaggatgagaggcgcgaaatcgcagaactctacgatgactggacattcgacgggggacgggg acatccccctactgatctttcgcgcgtcctcatttcgcatcggcctttgtggcttgcatcgatcttgggcacgcctcgacgcatac ctcttgatgacgggctgtttgacctcgtgatcttcgacgaggcgagccaatgcgacatcgcgacggccgttccgttgctggcgcgc gcgaagcgggccgtcgttgttggggatgatcgacaactgtcattcatccctcaactgggtcaggcgcaggatcgcaatctcatgca ggctcagggcctaccggtcgccagaatgggccgtttcgcccagagtcgccgttcgctattcgatttcgcatcgcgcgtgtctgttg ccgacaacaggattactctgaggcaccagtatcgttcagcaggccccatcgtcgattacatcagcgagaacttctacggaaaccag ttgcagacctcgtatgacccgaggcgactgaacgtgccagatggggtgcgccctggcctcgcatgggaacatgttcctgctcccgc ggtcccgcaaatgggcaacgtcaatccgtcggaagtaagcgcgattgttaggcacctgaaaaagctgatcgttgaagacaaataca ctggcagcatcggtgtcataacgccgtttcgcgctcaagtggccgctatcgagaacgcggtcgatgccgtcctggatgaaccgaag cgcattgcctgcgagctcaaggttggcacagttgacggttttcagggacaggagcgggatctcatcatgttctcgccttgcgtcgg tccacgcagcccgcagtctggcttgaccttctttcagcgagatacgcgccgtttgaacgttgcgatttcgcgggctcgggcggtcg cgatgatcttcggcgatcttgattttgcacgttcagggcaatcaaaagcgctggccaagctcgcttcgagggcgacggaagcgcgg acgaaacggggcgaaggtgtgttcgacagcgattgggaacgcaaagtctatcacgctctgaaggcccgaggtctggatccgcagcc gcagcacgaaatagctgggcggaggctggacttcgcgttgtttggagcgaatgatgtaaagctcgatctcgaggtcgacggacgca gatggcacgaaagcccagacggtcgtcgaaagacgtcagacctgtggcgcgatcatcaactgaagtccatgggatggcgggtgcgc cggttctgggtggacgaactttcaagggatatggagggttgtcttgaccgagtcgaacaagacctatcgtaagtcgagcaggaaca ccgcggttgcgttggggctgggtggcgccgccatccttgcctcgggctttctcgtcctgcaagtcaactcgctcgatcgccgatat ggtcgtatcgaggaaaatctgagctactacaccggggaactccaatccgcgcagcagcaactggcttttgctcgtgagcagtttcg cgaactttctgaccaaaagcaaagcttgtctcaggaagtcgcgagcgccgaacgcagccttcaaagcgcggctcagagagaggcgg atgcgcaggctagtgtcgaagcaagccaggccaaattgactgctgagcgggaccgtttggccgaagcccaaaaaacgattgcggat gcgcagcgaattgaacgtgaaactgctcaagctttgctgcgaagaaatggcctcgaaacagaggtggtcaaactgaaaggcgatgt gcaggcccttaaggagagccagcaagagttgtctgctggtgttgaccaaacgcaatcggctgtcgatcgcctcgaagagagaagag ctgaacttcaacgtgaagtggatagactcgcgcccgccgttgaagaccttcgtgcacaggagcggcttgtcgaacaactgcgaggt gacgaggatcgtctcgaacagagcctcgacgatttgaatgcgaacattgcaattgcacggactgaattggcgaccagcgcggaaaa ggtcgatgcggccgaggagaggctgcgtgcagggcaggaacaaatagcatccacagaagctcaacttgaaacactgaatttcgaag tcgatgacctcgagtcgagacagggcgaactgcaggcaagtgtctcgggagcagagacgcgtctttcttcattgcaaaatgaactg gagatcgcacagaacgcggtgacgcgagctgatgcgcagcgcgctgaaactacagaagcactcaacatcgctcaggaacagttttc gacgcgaagcgctcagctctctaccctccagtcgcagattgcatcggcagaggaagagcttgccgaacttgaagagagacgggcgg aattcagcagattgcaggctcaaatggaccagctgcaagcacgtcgaacgacactagaggaggttctccccgatcttgagaagcga gttcaagcagagcgggctaatttgggttctatcacgacagaagtggagacagagctcgggcgagttgctgtactcaaaggccaggg ttccagtctggaggccgacatcgagcgcctccaagagcgtcgcgacgaactcgggctggaaacgcagtccgccactgctgaggcgg aggccgcgcgcgcatcccttcaagctgagcttggtcaacttgcggaaaccgatgccctttcaagagcgcggactgccgatttgagg cgcttgagagaagctcttggagctgctgaaagagagctttccgaacttgaagagagacgggcggaattcagcagattgcaggctca aatagaccagctgcaagcacgtcgaacgacactagaggaggttctccccgaacttgagaagcgagttcaagcagagcgggctaatt tgggttctatcacgacagaagtggaaacagagctcgggcgagttgctgaactcaaaggccagggttccagtctggaagccgacatc gagcgcctccaagagcgtcgcgacgaactcgggctggaaacgcagtccgccactgctgaggcggaggccgcgcgcgcatcccttca agctgagcttggtcaacttgcggaaaccgatgccctttcaagagcgcggactgccgatttgaggcgcttgagagaagctcttgctg ctgccgatgatgagctttccgagacacgagcggaactgatggacggacagtctgtggaacaggaaccagtatcaaccattagtgaa ggcgctggcgcccgtgaaaacgctcagtctgacaactccgcgccatcgagcaccgacaattgaggtaaccgaaaatgcttacggac aatacaatacttgtgctggcgattgcgggtgtcctgatactgctcgccgtggttcaactttttctggccgcccgccacgaccgggc ggttacggcagcaggcccgatcgaagagcttgccgtctacgagaagcggctggaagaaaaacagcggctcatggacgatcttgaag ctgaagtggaaaaacgtcgggaggcaatggccgtcgttactgacctccgggctgaggtcgacggtctacggcgtcagaaggaggag ctccttacagaatgggagagtctccgtgaacgtcgcgacgaagttgcggcagttcgcaaggagactgaggacgccgttgtcgaacg ccagcaactcgaaacggagatcgccccgcttcgtgcggagtatctggagataaaggaaaggctggaaaaggcggaggagctcattg agcgcactgacgccttgagacgagagcacgacgaaatctccacacaggtcaaagatcttcgggacaagaagaggcaacttgaagag gccgaggaacgggtttctcgcctggaagagcgttccttcgaacttgagacatcgaatgctcggcttgagggacagaagtcttcgca tgaaagcgagttgtccgccttggaagcgcggatcgcctcggaacacggtgggttggcatctgcccaaaccgaacatgctcgcctcg atgcagaggttgcggctctgaaccaggaaacccgccgctccaggggcgaaatcgagacgctccaggacactcgaagcgcgcttgat gctcgattggcacacctcaaggccgagatagctcgccgagaaggtcgaaccgtcgacggggaaaccggcgaaacggatccgcttcg cgagctcaatgaaacaccaccggtcattacggagatgaggacctgggacaacgcgccccgcgagaacgaggcggatgccatcaaac gcgtcgaacgccgcctacgcgcaaagggtctcgactacccggctcgcacgcttcgcgcttttcacaccgccatgaaagtaaatgaa acaacgcagatggcggtccttgccggtatttccggaacgggcaagagccagctcccgcgtcaatacgcggccggtatgggcatcgg tttcttgcaagttccggtgcagccacgttgggatagtcctcaggatctgatgggattttacaactacatcgaaggcaagttccgac ccacagacatggcgcgtgcgctttgggcggtcgacgggcttaacaacgacgatgcggaacaggatcgcatgatgatgatcctgctg gacgagatgaacctcgcaagggtcgaatactatttctcggacttcctcagcaggctggaaagccgtccgcgtcccgatgacgtcga caatgaaaacgaacgcaaggacgctgtgatcgagcttgaaatcccgaacatggaacgcccccccaggatttttccgggctacaacc tcttgtttgcgggcactatgaacgaggacgaaagcacgcagtcgctatccgataaagttgtcgaccgtgcgaatatccttcgtttt tccgccccgaagaaaatcaaggacggacaggcagaaggaacggtcgagccgattttggccctttcgcaacagacatgggagagctg ggggcggtcgagtgcgtctgtcgatggcggtcggcgtgtcaccaaccggattgaacaaatggttgatctgatgcgtgacttcaaac ggcctttcggtcatcggctcggacgcgcgatcatggcttacgcggcgaactatcctgaggttgaaggcggccgcggtgtcgacgac gctctcgcggatcaattagagatgcgccttctaccgaaactcaggggcgtggaaaccgacatggctggccctcagttctcgaggtt gatgacctttgtggaacgcgagctgggggacgacgccttggcccaagcaatcggtgagtcaatgtccctcgccgaggcaaccgggc agttcgtatggagtggagtcacgcgttgatgcggtttctggcccgtccctgggcggcgaaagcccttggagaggacgaagcctttg ggcccgaagactgtctgatcggtagctaccagggggcgaacccaggcggctacgaatacgtgacgctcttgaggggaaacgtccga ggtagcgataccggaactgttctgtttccctatccaaagcgtgaggaagctgtcgggcccgcgcgtaagggcttcccggtgcgccc aaggtcggggcacgatcctgccactccggacgaagaagaaggcgcagaggcccttcgacacatgaacgaagttcttgcacgtatcc aagaactggaaggtgcgattgaagacccaagcgatacatgggggcgcctgagggatgcttggaagcgcgccgaaaatgaagccgaa cccaaaatggctgaaatcgtccggcaggcgcggggcatgcttccggtgcttcgcgatctggaaaaacgcatccgccgggttctacg taggcacagggagctaactccccttgatcgggtgcaggagatggatcggacctctatggtgtggctcagccgacagccagggcgaa gcatcgcggaacgtgcaggttcttcgcaacgaattcttgcgacggttcgccgtgagaatttcgatacgctcgagaaccgtgtcctg catgcctacacgcgtcttgccgcagatgttgcacgcgaatggacccgtgagcaccctcgtgcgaaggacagtgttcgctacaaaca ggttgaggcttttaggaaggcctgtcgagtattgtcgcgaacactcagtgacctcggtgtcatgatcgcgtcggccggcgtccagc caaactatgtgctcatgcaagatcgcagctatcgagaggttcatgagggatggctgaggcttctcttacgccgaaaaattgtagat gatctttgggcttggcaggccgaaacttggacggatttctccgttctttcgatcattcttgccatcgacgaattggaagaggctga acttgtcgctcagtcgccgatttcgtggagcggtgaggcaacaggcggacgctggttcaatcaggatcggccaatcgccgtctttt ggctgcgcgacaccaaccgcattgttgaagtccaagcacgccctgagcgaccaggaaccatgttgagcgcggcacaagcgcacgtc gccctcagaatttccgatcccaaacgggctgaccttccgcgcaggatcgctgtctggacgccacatgccatgcgtagaattgatct cgaggatactgtgcggggggcagttcaactgcttcaccaaatccagcccctcgctcagacggaagttttgcggaatgggttgatca tgaccccagcacgtggtgtcgcagctgaagagagcgcaactcacggaagagcgatcgttacggcaatcgccataggcccagccggt gaagacctagcgaagggattccaggccgtgcgcgacttcattcgcagtgagctatacgaggtcgcaacatgatcgaccgaaaacta tgcggcttcgatctcaacggatggagagatttcgttgcgaagaactggcgctccgtgccaggtgaagacgaggtcattggtccgac cgatatcgtcacaagtggccctctttcgtcgatcgtgcggatcggggaaagccgcctcgcaggttggatcggaggaccgcaggctg acattgctccgcacggtcgcggtggtggttggggtgatgtcgggtcagaacaaagacgcattcccgttcggtcactgctggaaatg cgtgatgacggggtcgaaaaactcgcccaggcacttgtgggatctgcgagcggttcggcaaacacagtcgtttcgatcgatgaggg cccggatggcgatgaagccgtccaagagcaccttctcgaagcacttgcccgagggaagttccgaaatggctcattggtttggcgac cagttcttgccgccttgttcgccattcatcgcgatcaggtttcggaggggcagcttgtaggcgtcgtctcccatcagcgccaaggc ttgtcagttcaaaagctgcgtattcgtagcgcaaggaatgtgctcgccccggagcgacgcgaggccgctgcccatataccgtgcga cgctggttacgagtccctattccgaggtgcccgcaacgccgctgtcggggcagagggtttttcggcgcgcacagctcatcgtgcga tcgcaagctcggtcggaaaagctggtttagggatggattgcaatcctgagatgctccgcatgcccaacggcgattgggagctcttg gaccttaataaatttgacgcgtcggaagtggtgagtgtcccgagttccgagctcgatctggccgattgcgacgtcgttcttttcga gaccctttgtgaaggtcggctcaaaaaatgcctgagtgatgctatccaaagagcagctccagtcgaggtgctctctcttcccgcaa cggctgttgcggaaggtgccttggaagcagcacgccgagccggggacggggaaccgatcttcttcgactttctaccacgattgtcc accatcgtgttcggatcggatggcgcaaagaatttcgatctcatacggaaagaagaaacgctcgaagcaggccggacctacagaag ccctgaagcagcatctctcgcgataccggcagggcaggagagcgtctctgtctacctgaggaaagaggaagctccctggcctcgaa aggcaagggtgtcgcttggagctcctctgaagcatcaagctgccgtctcgctgtgggtcgaacagaaaccggccgccgggcgagcg cggatcctcatggaatcgccggacttggggcggaatttcgcggtggattgggatgaagcactggaagaggaacggccctggtctga gatcatcgagagcttggatacgcaagtgtcaattcccaaacgtctggttcttccctgcggcatggaggcatggcatgacagcgatc gatccgcaggtatgctaactttgctcgaatccgagcctaatcgcagccgcacggattgggcgacccttcggcaaaaactttcacag cgtccctttggcaaatactgcatctcaagtgacggcgacgtgcctccggagatcgcggcagaaaccctcgagcggtttgaaattct gaccagcaaagcgcttgaggttactgaaaagcgcctgaggggcgaaagcggctacggaacggaagacaatgaggctctcaaattct tgagttggcagttccgccgatgcccgcgcgatgtcgcgacgtggctgatggactgtattgaagcgtccgggcgcaaccatccgttc gtcaaacatcaagcaagttgggttctcgtatatcagggccttggccgcatcgtcggaaacgaagaggacgaagcgagagcaatgcg gttgcttctgacttcgtccattgaggactgggtctggaaccgacaaagcgcggccatggcgttcatgctgtctcgttctgacagcg ctccatcttacctggaacgagaagacgtagagaagctgaccaagaggactatcgcggacttccaacgtaatatcggcggccaatat acaatgtttaactacgcgcctttcttacttgcaggcctgataagatggcgtctcgttgatcctaaagctttggtgatcggggccga cccgttggcggatgacctcttggctatcattgagaaaacagagcacgacctgaaggcccgttgtgggtccaatatgaatttccaaa ggcggcggtcgaagttcttgcctatcctccaagacctgaagtcagagctggcgggagaaggttcgaatcctgacctgttgttggat atctatggagcgagcggaacgtgaccatgagcgcgcaggtaccaagctgctggatcaagcctctgggacgagcagaagcccgtccg ttgtataaaatcaccacagacacaagcaagagatatcgtgatactaaagcgctctggaggattcccatcagacctgatgaacatcg caactgcatcgaaccagaaccatcttggcaactaggtgcggaccaaggactgaagcatgtgcctatcgctcaa (SEQ ID NO: 74) 78 pLG080 gggctgtttggttgaattaaaaatacgaactaaaaccaacaagagtcggaaaaaacttcaaaatgctgcttatggataatagtcatc ttaaaaatgtacggaaaaagagactaaaatcagaaaaacatctgttatacattgacttaaagtcatcatctccgctatgagtcctca atccaagttgacaaatgtttagccaggagttcccgtgaacgagcatctctctcatatggatgtacataccttgtttgaagaaatgga cgagcaggctgatggaataacgtttaaatactcatttgatgacatagcaaagagcaacgcattggttgtcactgagtttgtcaattt tgagcgtgacagcacggtagctttactcgccagccttcttactctcccggcacaccaatctcagtgtttgcgctttgagcttctgac gagccttgcactaattcactgcaaaggtcagcagatagcaaatatcgatgacgtgaaacgctggtatgtcactattggggagtcgag tagtatcgttggagaagatcctgctgaggacgtcttcgtcgcccttgttgataataaaaaaggtgattaccgtgtgctagagggggt ttgggaggcggcaggtttttatacacaattaatggtcgaaattgtatccgacatgccggatacgcaccgctatcgctcgctgaaact tgctatacaggcaattctccgtctctcagatgtcatttgtgctcgctctggcctttatcgttttcaggaaggcgcagacgaattccc tgactctcttgacaccgctggtcttgatgagaaaacgctctgttcaagggtaacgttgtccgagcgttctcttcgagctgaggggat caaacttgctgacttagcacctttcattcttgaaccttctcatataagtatgcttggaaatcaggtccctggggagggaatgcttga acaacggccattgctccgcacacgcgatggtattgtggttgtacttcctaccgccatgaccattgcacttcgccaggcagtgataac atttgcaaagcgcacagaagaattgagcgagctagacaaagcgttagctaacgtctacagccttactttctccgagatgccggtctt cggtaatggaggaaggttaagaagactgacatgggagaagtacaaaatgagccgaacaacgatggtaacctccatcgtggatgctgg tcatttgatggtacttcagttcgttttgccttccatacagcaatatgccgataccggtttcaacaacttgctacagctagatgaaga gaccacgcaatttctagataactctgttgaacaaattacagttgacctcgccaaacaacccggctttcagcgtggcatcgtcgtgcg cattgcatgtgggtggggggcgggttttatgggggtccctccccaactgccagatggttggggatttgaatggatgtctggtgcgga ctttgtccggttcggggcattacccgatatgtcaccaattgccttctggcgtgtgcaagacgcagtcgaaacgatcaggcaagctgg tgttcgattaatcaatatgagcggaactctcaatcttcttgggtggatacgtgccaatgatggccatatggttcctcatgaccagtt accagatgaccgtatcacaccggaacacccgctaatgttaatgattcccacgaatttactccgtggtatacgaatagcggcagacac aggatatgaccggcatcgcattagtgacaacaatggtaaatggcatcgagtgatgaggccttcggcagaagatttctttcccaccga gcgtcagagcaagtgctacgcatcaattgatgatcttgaagcgcaacggctgacctgtgtatatgaggggcagggtaatctttggg taacgctcgaagctccagaaatggaagattggatgctcctcgttgagcttgccaaaatggttcgaacatggattgggcggattggc gaggcactggaggtcttgagtgagcaaccaataaaaaaatcattaaaggtgtatctgcattttgatggtaacgacaatatcggcag atttgatggtgagaatttttctgatgatatgaatacattttggcgacttgaacgaatccatgagcatggggcgattcgtgtggttc ttcaagatgggtatcttgcaggttttcgtctaccggataaccgtgcagaacgagctctggtgcgcgcactcggtacggcgtttgcc acacttcttcggatgaaagagccagtagacaaaggggtcactgttgagcagatagcggtgcccaatgacagagcgcgcagcttcca cataatgcaggcttatgacttcaaccaatatttaggccgttcactaactaaacgtcttttagctattgaagatatcgactcagccg cagcccgaattgagctagcatggcgtgctgtttcgacagatgcaccatcacgatatcagggtaaaaaggaagttggaaagctcctt aatgatgtggttgatgtgctgatccaagacttactaagcgaactttcaagatttgaccgtaaacagacagtaatgcgattacttga aaacgttgtaaaggcacgttgtgaagaggcgcactggcgtagtactgcagcagcggtccttggcttgcatgcaggagaagagggtg tcgaagagacgatagctcaagaaatgagccgttatgcgggcgcagcgttaacttcccggctaatcattgaacttgccatctgtgtg tgcccgacaagcggtggaattgaaccttctgatatggcactcagtaaacttcttgcacgggcatcactgctttttcgcataggtgg tatgtcagatgccgtacgtttcggtgctttgcctgctgatattcgcatctcccccttaggtgatctcctctttcgcgatgaactcg gcaaaatggtgcttgaaccaatgctttcaaaagttactaacgaacggtttgaggaacaagcggcacaattcgagcaacactatgtg aaaactgccggaggggatgatgagaatagcaaacaagatagtgttgcggctgaaaccaccgaggaccaaaccgatattttccttgc attctggaaagcagaaatgggcttcactctcgaggatggaatgcgatttatccagttccttgagtccatcggaatagagcaagaat cagcaatcttcgagatgcgaagaagccaattagcggatgctgctaaatcggctgggctcgcagatgaaactattgatgcgttcctc aaccagtttatccttagcgcgcgtccgaaatgggatgtagtgcccgatggatttgacctttctgatatatatccctggaggtttgg ccgacgcctttcagttgctgtacgtcccttgttacagattgaagagagtcacgatccactaattgttatcgcaccaggactcttga atctgtcccttaaatacgttttcgatggcgcatacactgggcaatttaagcgtgacttctttcgcacagagggtatgagagacact tggttaggtggagcgcgggaaggacacacattcgaaaaaactttggagagagaacttcgtgaaataggctggacagttcgacgtgg cataggctttcctgaaattcttcgcaggaatctaccaggtgatccgggggatattgatcttcttgcctggcgctcagaccgcaatc aagttctcgttatcgaatgtaaggacctctcacttgctcgtaattactcagaagttgcctcgcaactatctgaatatcaaggtgat gacataaagggcaaaccagataaactcaagaaacaccttaaacgcgtattactagccaaagaaaacatcgataattttgccaagtt cacttcgatagcgaatcccgagattgtatcgtggctcgttttcagtggagcatctcccattgcctatgctcaatccaagattgagg ctttggcaggaactaatgttggccgcccaagtgatcttctgaacttttgatagatatgctgtgcgataagacgccctggcaactaa gttaatcgttcctactactgatagttttaaatcaagg (SEQ ID NO: 75)

Variants and Mutations

One or more components of the systems herein may comprise one or more mutations compared to corresponding wildtype counterparts. In some embodiments, the one or more mutations may be in the catalytic domain of an enzyme of a system herein. The mutation(s) may alter (e.g., increase) the activity of the enzyme.

Polynucleotides and Vectors

The present disclosure further includes polynucleotides comprising coding sequences of one or more components of the systems. In some embodiments, the present disclosure comprise vectors. The vectors may comprise the polynucleotides with coding sequences of one or more components of the systems. In one aspect, the present disclosure provides cells comprising one or more of the polynucleotides and/or vectors herein.

A vector refers to a nucleic acid molecule capable of transporting another nucleic acid to which it has been linked. A vector may be a replicon, such as a plasmid, phage, or cosmid, into which another DNA segment may be inserted so as to bring about the replication of the inserted segment. Generally, a vector is capable of replication when associated with the proper control elements. Examples of vectors include nucleic acid molecules that are single-stranded, double-stranded, or partially double-stranded; nucleic acid molecules that comprise one or more free ends, no free ends (e.g. circular); nucleic acid molecules that comprise DNA, RNA, or both; and other varieties of polynucleotides known in the art. A vector may be a plasmid, e.g., a circular double stranded DNA loop into which additional DNA segments can be inserted, such as by standard molecular cloning techniques.

Certain vectors may be capable of directing the expression of genes to which they are operatively-linked. Such vectors are referred to herein as “expression vectors.” Common expression vectors of utility in recombinant DNA techniques are often in the form of plasmids. A vector may be a recombinant expression vector that comprises a nucleic acid of the invention in a form suitable for expression of the nucleic acid in a host cell, which means that the recombinant expression vectors include one or more regulatory elements, which may be selected on the basis of the host cells to be used for expression, that is operatively-linked to the nucleic acid sequence to be expressed. As used herein, “operably linked” is intended to mean that the nucleotide sequence of interest is linked to the regulatory element(s) in a manner that allows for expression of the nucleotide sequence (e.g. in an in vitro transcription/translation system or in a host cell when the vector is introduced into the host cell).

A vector may be a viral vector, wherein virally-derived DNA or RNA sequences are present in the vector for packaging into a virus. Viral vectors also include polynucleotides carried by a virus for transfection into a host cell. Certain vectors are capable of autonomous replication in a host cell into which they are introduced (e.g. bacterial vectors having a bacterial origin of replication and episomal mammalian vectors). Other vectors (e.g., non-episomal mammalian vectors) are integrated into the genome of a host cell upon introduction into the host cell, and thereby are replicated along with the host genome.

In some embodiments, the polynucleotide herein may be a part of a vector or a pair of vectors that is/are introduced into cells for inducing diversification (e.g., site-specific mutagenesis) of the variable region and/or support replication of the molecules. Non-limiting examples of vectors include plasmids and virus based vectors, including vectors for phage display that may be used to express a diversified variable region sequence. Other non-limiting embodiments are vectors containing variable sequences that have been subjected to the methods of the instant invention and then removed from an operably linked template region, including by preventing the expression of template regions, so as to produce without further diversification quantities of the variable region-encoded protein for uses including as a diagnostic, prognostic, or therapeutic product.

Regulatory Sequences

The vectors or polynucleotides may further comprise one or more regulatory sequences. In some cases, the regulatory sequences may direct the expression of the nucleic acids in specific types. The term “operably linked” as used herein refers to linkage of a regulatory sequence to from a DNA sequence such that the regulatory sequence regulates the mediates transcription of the DNA sequence. Regulatory sequences include transcription control sequences, e.g., sequences which control the initiation, elongation and termination of transcription. In some cases, regulatory sequences include those control transcriptions. Examples of such regulatory sequences include promoters, enhancers, operators, repressor, transcription terminator sequences.

The variable region (or the gene overlapping or including the variable region sequence), the template region, and the coding sequence for reverse transcriptase may be operably linked to the same regulatory sequence (e.g., promoter). Alternatively or additionally, the variable region (or the gene overlapping or including the variable region sequence), the template region, and the coding sequence for reverse transcriptase may be operably linked to different regulatory sequences. In some cases, the variable region (or the gene overlapping or including the variable region sequence) and the template region are operably linked to the same regulatory sequence; and the encoding sequence for reverse transcriptase is operably linked to a different regulatory sequence. In some cases, the template region and the coding sequence for reverse transcriptase are operably linked to the same regulatory sequence; and the variable region (or the gene overlapping or including the variable region sequence) is operably linked to a different regulatory sequence.

Promoters

In some examples, the regulatory sequences are promoters. The promoter may be suitable for expressing the component(s) in the systems, e.g., the variable region, the template region, and/or the reverse transcriptase in desired cells. A promoter refers to a nucleic acid sequence that directs the transcription of a operably linked sequence into mRNA. The promoter or promoter region may provide a recognition site for RNA polymerase and the other factors necessary for proper initiation of transcription when a sequence operably linked to a promoter is controlled or driven by the promoter. A promoter may include at least the Core promoter, e.g., a sequence for initiating transcription. The promoter may further at least the Proximal promoter, e.g., a proximal sequence upstream of the gene that tends to contain primary regulatory elements. The promoter may also include the Distal promoter, e.g., the distal sequence upstream of the gene that may contain additional regulatory elements. In some cases, the promoter may be a heterologous promoter, e.g., promoting expression of nucleic acids or proteins in cells that do not normally make the nucleic acids or proteins.

The promoters may be from about 50 to about 2000 base pairs (bp), from about 100 bp to about 1000 bp, from about 50 bp to about 150 bp, from about 100 bp to about 200 bp, from about 150 bp to about 250 bp, from about 200 bp to about 300 bp, from about 250 bp to about 350 bp, from about 300 bp to about 400 bp, from about 350 bp to about 450 bp, from about 400 bp to about 500 bp, from about 450 bp to about 550 bp, from about 500 bp to about 600 bp, from about 550 bp to about 650 bp, from about 600 bp to about 700 bp, from about 650 bp to about 750 bp, from about 700 bp to about 800 bp, from about 750 bp to about 850 bp, from about 800 bp to about 900 bp, from about 850 bp to about 950 bp, from about 900 bp to about 1000 bp, from about 950 bp to about 1050 bp, from about 1000 bp to about 1100 bp in length.

The promoters may include sequences that bind to regulatory proteins. In some examples, the regulatory sequences may be sequences that bind to transcription activators. In certain examples, the regulatory sequences may be sequences that bind to transcription repressors.

In some cases, the promoter may be a constitutive promoter, e.g., U6 and H1 promoters, retroviral Rous sarcoma virus (RSV) LTR promoter, cytomegalovirus (CMV) promoter, SV40 promoter, dihydrofolate reductase promoter, β-actin promoter, phosphoglycerol kinase (PGK) promoter, ubiquitin C, U5 snRNA, U7 snRNA, tRNA promoters or EF1α promoter. In certain cases, the promoter may be a tissue-specific promoter may direct expression primarily in a desired tissue of interest, such as muscle, neuron, bone, skin, blood, specific organs (e.g. liver, pancreas), or particular cell types (e.g. lymphocytes). Examples of tissue-specific promoters include Ick, myogenin, or thy1 promoters. In some embodiments, the promoter may direct expression in a temporal-dependent manner, such as in a cell-cycle dependent or developmental stage-dependent manner, which may or may not also be tissue or cell-type specific.

In some cases, the promoters may be inducible promoters. The term “inducible promoter”, as used herein, refers to a promoter that, in the absence of an inducer (such as a chemical and/or biological agent), does not direct expression, or directs low levels of expression of an operably linked gene (including cDNA), and, in response to an inducer, its ability to direct expression is enhanced. Examples of inducible promoters include, promoters that respond to heavy metals, to thermal shocks, to hormones, promoters that respond to chemical agents, such as glucose, lactose, galactose or antibiotic (e.g., tetracycline or doxycycline). Examples of inducible promoters also include Drug-inducible promoters, for example tetracycline/doxycycline inducible promoters, tamoxifen-inducible promoters, as well as promoters that depend on a recombination event in order to be active, for example the cre-mediated recombination of loxP sites. Examples of inducible promoters further include physically-inducible promoters, e.g., particular a temperature-inducible promoter or a light-inducible promoter.

The promoters may be suitable for expressing the component(s) in the systems in desired types of cells. In some cases, the promoters are for expressing the component(s) in prokaryotic cells. Examples of such promoters include filamentous haemagglutinin promoter (fhaP), lac promoter, tac promoter, trc promoter, phoA promoter, lacUV5 promoter, and the araBAD promoter. In some cases, the promoters are for expressing the component(s) in eukaryotic cells. Examples of such promoters include the cytomegalovirus (CMV) promoter, human elongation factor-1E promoter, human ubiquitin C (UbC) promoter, and SV40 early promoter. In some examples, the promoters are for expressing the component(s) in yeasts. Examples of such promoters include Gal 11 promoter and Gal 1 promoter. In some cases, the promoters may be used for expressing the components in a cell-free system. In such cases, the promoters may be selected based upon the source of the cellular transcription components, such as RNA polymerase, that are used.

Codon Optimization

In some embodiments, at least one or more regions of the polynucleotide molecule may be codon optimized for expression in a eukaryotic cell. In certain embodiments, the polynucleotide molecules that encode one or more components of the systems as described in any of the embodiments herein are optimized for expression in a mammalian cell or a plant cell.

An example of a codon optimized sequence is in this instance a sequence optimized for expression in a eukaryote, e.g., humans (i.e. being optimized for expression in humans), or for another eukaryote, animal or mammal as herein discussed. It will be appreciated that other examples are possible and codon optimization for a host species other than human, or for codon optimization for specific organs is known. In some embodiments, an enzyme coding sequence encoding a component in the system is codon optimized for expression in particular cells, such as eukaryotic cells. The eukaryotic cells may be those of or derived from a particular organism, such as a plant or a mammal, including but not limited to human, or non-human eukaryote or animal or mammal as herein discussed, e.g., mouse, rat, rabbit, dog, livestock, or non-human mammal or primate. In some embodiments, processes for modifying the germ line genetic identity of human beings and/or processes for modifying the genetic identity of animals which are likely to cause them suffering without any substantial medical benefit to man or animal, and also animals resulting from such processes, may be excluded. In general, codon optimization refers to a process of modifying a nucleic acid sequence for enhanced expression in the host cells of interest by replacing at least one codon (e.g., about or more than about 1, 2, 3, 4, 5, 10, 15, 20, 25, 50, or more codons) of the native sequence with codons that are more frequently or most frequently used in the genes of that host cell while maintaining the native amino acid sequence.

Various species exhibit particular bias for certain codons of a particular amino acid. Codon bias (differences in codon usage between organisms) often correlates with the efficiency of translation of messenger RNA (mRNA), which is in turn believed to be dependent on, among other things, the properties of the codons being translated and the availability of particular transfer RNA (tRNA) molecules. The predominance of selected tRNAs in a cell is generally a reflection of the codons used most frequently in peptide synthesis. Accordingly, genes can be tailored for optimal gene expression in a given organism based on codon optimization. Codon usage tables are readily available, for example, at the “Codon Usage Database” available at www.kazusa.orjp/codon/ and these tables can be adapted in a number of ways. See Nakamura, Y., et al. “Codon usage tabulated from the international DNA sequence databases: status for the year 2000” Nucl. Acids Res. 28:292 (2000). Computer algorithms for codon optimizing a particular sequence for expression in a particular host cell are also available, such as Gene Forge (Aptagen; Jacobus, Pa.), are also available. In some embodiments, one or more codons (e.g., 1, 2, 3, 4, 5, 10, 15, 20, 25, 50, or more, or all codons) in a sequence encoding a component in the system corresponds to the most frequently used codon for a particular amino acid.

Nuclear Localization Signals

In some embodiments, the systems and compositions herein further comprises one or more nuclear localization signals (NLSs) capable of driving the accumulation of the components, to a desired amount in the nucleus of a cell.

In certain embodiments, at least one nuclear localization signal (NLS) is attached to the nucleic acid sequences encoding the components in the systems. In some embodiments, one or more C-terminal or N-terminal NLSs are attached (and hence nucleic acid molecule(s) coding for the components in the systems can include coding for NLS(s) so that the expressed product has the NLS(s) attached or connected). In a preferred embodiment a C-terminal NLS is attached for optimal expression and nuclear targeting in eukaryotic cells, e.g., human cells.

Non-limiting examples of NLSs include an NLS sequence derived from: the NLS of the SV40 virus large T-antigen; the NLS from nucleoplasmin (e.g., the nucleoplasmin bipartite NLS; the c-myc NLS; the hRNPA1 M9 NLS; the sequence of the IBB domain from importin-alpha; the NLSs of the myoma T protein; the NLS of human p53; the NLS of mouse c-abl IV; the NLSs of the influenza virus NS1; the NLS of the Hepatitis virus delta antigen; the NLS of the mouse Mx1 protein; the NLS of the human poly(ADP-ribose) polymerase; and the NLS of the steroid hormone receptors (human) glucocorticoid. Examples of such NLSs include those described in paragraph [00131] in Zhang et al. WO2014093595A1.

In some embodiments, a NLS is a heterologous NLS. For example, the NLS is not naturally present in the molecule it attached to.

In general, strength of nuclear localization activity may derive from the number of NLSs in the nucleic acid-targeting effector protein, the particular NLS(s) used, or a combination of these factors. Detection of accumulation in the nucleus may be performed by any suitable technique. For example, a detectable marker may be fused to the nucleic acid-targeting protein, such that location within a cell may be visualized, such as in combination with a means for detecting the location of the nucleus (e.g., a stain specific for the nucleus such as DAPI).

In some embodiments, a vector described herein (e.g., those comprising polynucleotides encoding the components in the systems comprise one or more nuclear localization sequences (NLSs), such as about or more than about 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, or more NLSs. More particularly, vector comprises one or more NLSs not naturally present in the the components in the systems. Most particularly, the NLS may be present in the vector 5′ and/or 3′ of the the components in the systems. In some embodiments, the the components in the systems comprises about or more than about 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, or more NLSs at or near the amino-terminus, about or more than about 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, or more NLSs at or near the carboxy-terminus, or a combination of these (e.g., zero or at least one or more NLS at the amino-terminus and zero or at one or more NLS at the carboxy terminus). When more than one NLS is present, each may be selected independently of the others, such that a single NLS may be present in more than one copy and/or in combination with one or more other NLSs present in one or more copies. In some embodiments, an NLS is considered near the N- or C-terminus when the nearest amino acid of the NLS is within about 1, 2, 3, 4, 5, 10, 15, 20, 25, 30, 40, 50, or more amino acids along the polypeptide chain from the N- or C-terminus.

In certain embodiments, other localization tags may be fused to the Cas and/or transposase(s), such as without limitation for localizing to particular sites in a cell, such as organelles, such mitochondria, plastids, chloroplast, vesicles, golgi, (nuclear or cellular) membranes, ribosomes, nucleoluse, ER, cytoskeleton, vacuoles, centrosome, nucleosome, granules, centrioles, etc.

Fusion Proteins and Linkers

The components, e.g., proteins, domains, and nucleic acids, in the systems (from the same or different systems) may be associated (e.g., fused). The fusion may be via a linker. The term “linker” as used in reference to a fusion protein refers to a molecule which joins the proteins to form a fusion protein. Generally, such molecules have no specific biological activity other than to join or to preserve some minimum distance or other spatial relationship between the proteins. However, in certain embodiments, the linker may be selected to influence some property of the linker and/or the fusion protein such as the folding, net charge, or hydrophobicity of the linker. In some embodiments, components in different systems may be associated (e.g., fused). In some embodiments, the two or more different systems herein may be associated (e.g., fused). For example, two or more of the ATPase(s), deaminase(s), and reverse transcriptase(s) may be associated (e.g., fused) together.

Suitable linkers for use in the methods of the present invention are well known to those of skill in the art and include, but are not limited to, straight or branched-chain carbon linkers, heterocyclic carbon linkers, or peptide linkers. However, as used herein the linker may also be a covalent bond (carbon-carbon bond or carbon-heteroatom bond). In particular embodiments, the linker is used to separate the Cas protein and the ligase by a distance sufficient to ensure that each protein retains its required functional property. Preferred peptide linker sequences adopt a flexible extended conformation and do not exhibit a propensity for developing an ordered secondary structure. In certain embodiments, the linker can be a chemical moiety which can be monomeric, dimeric, multimeric or polymeric. Preferably, the linker comprises amino acids. Typical amino acids in flexible linkers include Gly, Asn and Ser. Accordingly, in particular embodiments, the linker comprises a combination of one or more of Gly, Asn and Ser amino acids. Other near neutral amino acids, such as Thr and Ala, also may be used in the linker sequence. Exemplary linkers are disclosed in Maratea et al. (1985), Gene 40: 39-46; Murphy et al. (1986) Proc. Nat'l. Acad. Sci. USA 83: 8258-62; U.S. Pat. Nos. 4,935,233; and 4,751,180. For example, GlySer linkers GGS, GGGS (SEQ ID NO: 76) or GSG can be used. GGS, GSG, GGGS (SEQ ID NO: 76) or GGGGS (SEQ ID NO: 77) linkers can be used in repeats of 3 (such as (GGS)₃ (SEQ ID NO: 78), (GGGGS)₃ (SEQ ID NO: 79)) or 5, 6, 7, 9 or even 12 or more, to provide suitable lengths. In some cases, the linker may be (GGGGS)₃₋₁₅, For example, in some cases, the linker may be (GGGGS)₃₋₁₁, e.g., GGGGS (SEQ ID NO: 77), (GGGGS)₂ (SEQ ID NO: 80), (GGGGS)₃ (SEQ ID NO: 79), (GGGGS)₄ (SEQ ID NO: 81), (GGGGS)₅ (SEQ ID NO: 82), (GGGGS)₆ (SEQ ID NO: 83), (GGGGS)₇ (SEQ ID NO: 84), (GGGGS)₈ (SEQ ID NO: 85), (GGGGS)₉ (SEQ ID NO: 86), (GGGGS)₁₀ (SEQ ID NO: 87), or (GGGGS)₁₁ (SEQ ID NO: 88).

In particular embodiments, linkers such as (GGGGS)₃ (SEQ ID NO: 79) are preferably used herein. (GGGGS)₆ (SEQ ID NO: 83), (GGGGS)₉ (SEQ ID NO: 86) or (GGGGS)₁₂ (SEQ ID NO: 89) may preferably be used as alternatives. Other preferred alternatives are (GGGGS)₁ (SEQ ID NO: 77), (GGGGS)₂ (SEQ ID NO: 80), (GGGGS)₄ (SEQ ID NO: 81), (GGGGS)₅ (SEQ ID NO: 82), (GGGGS)₇ (SEQ ID NO: 84), (GGGGS)₈ (SEQ ID NO: 85), (GGGGS)₁₀ (SEQ ID NO: 87), or (GGGGS)₁₁ (SEQ ID NO: 88). In yet a further embodiment, LEPGEKPYKCPECGKSFSQSGALTRHQRTHTR (SEQ ID NO: 90) is used as a linker. In yet an additional embodiment, the linker is an XTEN linker. In particular embodiments, the CRISPR-cas protein is a Cas protein and is linked to the ligase or its catalytic domain by means of an LEPGEKPYKCPECGKSFSQSGALTRHQRTHTR (SEQ ID NO: 90) linker. In further particular embodiments, the Cas protein is linked C-terminally to the N-terminus of a ligase or its catalytic domain by means of an LEPGEKPYKCPECGKSFSQSGALTRHQRTHTR (SEQ ID NO: 90) linker. In addition, N- and C-terminal NLSs can also function as linker (e.g., PKKKRKVEASSPKKRKVEAS (SEQ ID NO: 91)).

Examples of linkers are shown in the Table 4 below.

TABLE 4  GGS GGTGGTAGT (SEQ ID NO: 92) GGSx3 (9) GGTGGTAGTGGAGGGAGCGGCGGTTCA  (SEQ ID NO: 93) GGSx7 (21) ggtggaggaggctctggtggaggcggtagcggaggcgg agggtcgGGTGGTAGTGGAGGGAGCGGCGGTTCA  (SEQ ID NO: 94) XTEN TCGGGATCTGAGACGCCTGGGACCTCGGAATCGGCTAC GCCCGAAAGT (SEQ ID NO: 95) Z-EGFR_ Gtggataacaaatttaacaaagaaatgtgggcggcgtgg Short gaagaaattcgtaacctgccgaacctgaacggctggcag atgaccgcgtttattgcgagcctggtggatgatccgagc cagagcgcgaacctgctggcggaagcgaaaaaactgaac gatgcgcaggcgccgaaaaccggcggtggttctggt  (SEQ ID NO: 96) GSAT Ggtggttctgccggtggctccggttctggctccagcggt ggcagctctggtgcgtccggcacgggtactgcgggtggc actggcagcggttccggtactggctctggc  (SEQ ID NO: 97)

Adaptor Proteins

The adaptor proteins may include orthogonal RNA-binding protein/aptamer combinations that exist within the diversity of bacteriophage coat proteins. A list of such coat proteins includes, but is not limited to: Qβ, F2, GA, fr, JP501, M12, R17, BZ13, JP34, JP500, KU1, M11, MX1, TW18, VK, SP, FI, ID2, NL95, TW19, AP205, ϕCb5, ϕCb8r, ϕCb12r, ϕCb23r, 7s and PRR1.

Heterologous Components

In some embodiments, when a system or composition herein comprises multiple components, the components may be heterologous, i.e., they do not naturally occur together in the same cell or an organism. In some examples, the system comprises an ATPase and an adenosine deaminase that are heterologous. In certain examples, the system comprises two or more heterologous reverse transcriptases.

Cas Proteins and Variants

In some embodiments, the systems may further comprise a Cas protein or a variant thereof, and one or more guide molecules. One or more components described herein in the systems may be associated (e.g., fused) with a Cas protein or a variant thereof (a catalytically inactive). The Cas protein and guide molecule(s) may guide the components such as ATPase, deaminase, reverse transcriptase etc. to target a desired target sequence.

The Cas proteins, variants thereof, and guide molecules may be those in a CRISPR-Cas or CRISPR system, refers collectively to transcripts and other elements involved in the expression of or directing the activity of CRISPR-associated (“Cas”) genes, including sequences encoding a Cas gene, a tracr (trans-activating CRISPR) sequence (e.g. tracrRNA or an active partial tracrRNA), a tracr-mate sequence (encompassing a “direct repeat” and a tracrRNA-processed partial direct repeat in the context of an endogenous CRISPR system), a guide sequence (also referred to as a “spacer” in the context of an endogenous CRISPR system), or “RNA(s)” as that term is herein used (e.g., RNA(s) to guide Cas, such as Cas9, e.g. CRISPR RNA and transactivating (tracr) RNA or a single guide RNA (sgRNA) (chimeric RNA)) or other sequences and transcripts from a CRISPR locus. In general, a CRISPR system is characterized by elements that promote the formation of a CRISPR complex at the site of a target sequence (also referred to as a protospacer in the context of an endogenous CRISPR system). See, e.g, Shmakov et al. (2015) “Discovery and Functional Characterization of Diverse Class 2 CRISPR-Cas Systems”, Molecular Cell, DOI: dx.doi.org/10.1016/j.molce1.2015.10.008.

Class 1 Systems

The Cas proteins may be Cas proteins in class 1 CRISPR systems. In certain example embodiments, the Class 1 system may be Type I, Type III or Type IV Cas proteins as described in Makarova et al. “Evolutionary classification of CRISPR-Cas systems: a burst of class 2 and derived variants” Nature Reviews Microbiology, 18:67-81 (February 2020), incorporated in its entirety herein by reference, and particularly as described in FIG. 1, p. 326. The Class 1 systems typically use a multi-protein effector complex, which can, in some embodiments, include ancillary proteins, such as one or more proteins in a complex referred to as a CRISPR-associated complex for antiviral defense (Cascade), one or more adaptation proteins (e.g. Cas1, Cas2, RNA nuclease), and/or one or more accessory proteins (e.g. Cas 4, DNA nuclease), CRISPR associated Rossman fold (CARF) domain containing proteins, and/or RNA transcriptase. Although Class 1 systems have limited sequence similarity, Class 1 system proteins can be identified by their similar architectures, including one or more Repeat Associated Mysterious Protein (RAMP) family subunits, e.g. Cas 5, Cas6, Cas7. RAMP proteins are characterized by having one or more RNA recognition motif domains. Large subunits (for example cas8 or cas10) and small subunits (for example, cas11) are also typical of Class 1 systems. See, e.g., FIGS. 1 and 2. Koonin E V, Makarova K S. 2019 Origins and evolution of CRISPR-Cas systems. Phil. Trans. R. Soc. B 374: 20180087, DOI: 10.1098/rstb.2018.0087. In one aspect, Class 1 systems are characterized by the signature protein Cas3. The Cascade in particular Class1 proteins can comprise a dedicated complex of multiple Cas proteins that binds pre-crRNA and recruits an additional Cas protein, for example Cas6 or Cas5, which is the nuclease directly responsible for processing pre-crRNA. In one aspect, the Type I CRISPR protein comprises an effector complex comprises one or more Cas5 subunits and two or more Cas⁷ subunits. Class 1 subtypes include Type I-A, I-B, I-C, I-U, I-D, I-E, and I-F, Type IV-A and IV-B, and Type III-A, III-D, III-C, and III-B. Class 1 systems also include CRISPR-Cas variants, including Type I-A, I-B, I-E, I-F and I-U variants, which can include variants carried by transposons and plasmids, including versions of subtype I-F encoded by a large family of Tn7-like transposon and smaller groups of Tn7-like transposons that encode similarly degraded subtype I-B systems. Peters et al., PNAS 114 (35) (2017); DOI: 10.1073/pnas.1709035114; see also, Makarova et al, the CRISPR Journal, v. 1, n5, FIG. 5.

Class 2 Systems

The Cas proteins may be Cas proteins in class 2 CRISPR-Cas systems. Class 2 systems are distinguished from Class 1 systems in that they have a single, large, multi-domain effector protein. In certain example embodiments, the Class 2 system can be a Type II, Type V, or Type VI system, which are described in Makarova et al. “Evolutionary classification of CRISPR-Cas systems: a burst of class 2 and derived variants” Nature Reviews Microbiology, 18:67-81 (February 2020), incorporated herein by reference. Each type of Class 2 system is further divided into subtypes. See Markova et al. 2020, particularly at Figure. 2. Class 2, Type II systems can be divided into 4 subtypes: II-A, II-B, II-C1, and II-C2. Class 2, Type V systems can be divided into 17 subtypes: V-A, V-B1, V-B2, V-C, V-D, V-E, V-F1, V-F1(V-U3), V-F2, V-F3, V-G, V-H, V-I, V-K (V-U5), V-U1, V-U2, and V-U4. Class 2, Type IV systems can be divided into 5 subtypes: VI-A, VI-B1, VI-B2, VI-C, and VI-D.

The distinguishing feature of these types is that their effector complexes consist of a single, large, multi-domain protein. Type V systems differ from Type II effectors (e.g., Cas9), which contain two nuclear domains that are each responsible for the cleavage of one strand of the target DNA, with the HNH nuclease inserted inside the Ruv-C like nuclease domain sequence. The Type V systems (e.g., Cas12) only contain a RuvC-like nuclease domain that cleaves both strands. Type VI (Cas13) are unrelated to the effectors of Type II and V systems and contain two HEPN domains and target RNA. Cas13 proteins also display collateral activity that is triggered by target recognition. Some Type V systems have also been found to possess this collateral activity with two single-stranded DNA in in vitro contexts.

In some embodiments, the Class 2 system is a Type II system. In some embodiments, the Type II CRISPR-Cas system is a II-A CRISPR-Cas system. In some embodiments, the Type II CRISPR-Cas system is a II-B CRISPR-Cas system. In some embodiments, the Type II CRISPR-Cas system is a II-C1 CRISPR-Cas system. In some embodiments, the Type II CRISPR-Cas system is a II-C2 CRISPR-Cas system. In some embodiments, the Type II system is a Cas9 system. In some embodiments, the Type II system includes a Cas9.

In some embodiments, the Class 2 system is a Type V system. In some embodiments, the Type V CRISPR-Cas system is a V-A CRISPR-Cas system. In some embodiments, the Type V CRISPR-Cas system is a V-B1 CRISPR-Cas system. In some embodiments, the Type V CRISPR-Cas system is a V-B2 CRISPR-Cas system. In some embodiments, the Type V CRISPR-Cas system is a V-C CRISPR-Cas system. In some embodiments, the Type V CRISPR-Cas system is a V-D CRISPR-Cas system. In some embodiments, the Type V CRISPR-Cas system is a V-E CRISPR-Cas system. In some embodiments, the Type V CRISPR-Cas system is a V-F1 CRISPR-Cas system. In some embodiments, the Type V CRISPR-Cas system is a V-F1 (V-U3) CRISPR-Cas system. In some embodiments, the Type V CRISPR-Cas system is a V-F2 CRISPR-Cas system. In some embodiments, the Type V CRISPR-Cas system is a V-F3 CRISPR-Cas system. In some embodiments, the Type V CRISPR-Cas system is a V-G CRISPR-Cas system. In some embodiments, the Type V CRISPR-Cas system is a V-H CRISPR-Cas system. In some embodiments, the Type V CRISPR-Cas system is a V-I CRISPR-Cas system. In some embodiments, the Type V CRISPR-Cas system is a V-K (V-U5) CRISPR-Cas system. In some embodiments, the Type V CRISPR-Cas system is a V-U1 CRISPR-Cas system. In some embodiments, the Type V CRISPR-Cas system is a V-U2 CRISPR-Cas system. In some embodiments, the Type V CRISPR-Cas system is a V-U4 CRISPR-Cas system. In some embodiments, the Type V CRISPR-Cas system includes a Cas12a (Cpf1), Cas12b (C2c1), Cas12c (C2c3), Cas12d (CasY), Cas12e (CasX), and/or Cas14.

In some embodiments the Class 2 system is a Type VI system. In some embodiments, the Type VI CRISPR-Cas system is a VI-A CRISPR-Cas system. In some embodiments, the Type VI CRISPR-Cas system is a VI-B1 CRISPR-Cas system. In some embodiments, the Type VI CRISPR-Cas system is a VI-B2 CRISPR-Cas system. In some embodiments, the Type VI CRISPR-Cas system is a VI-C CRISPR-Cas system. In some embodiments, the Type VI CRISPR-Cas system is a VI-D CRISPR-Cas system. In some embodiments, the Type VI CRISPR-Cas system includes a Cas13a (C2c2), Cas13b (Group 29/30), Cas13c, and/or Cas13d.

Specialized Cas-Based Systems

In some embodiments, the system is a Cas-based system that is capable of performing a specialized function or activity. For example, the Cas protein may be fused, operably coupled to, or otherwise associated with one or more functionals domains. In certain example embodiments, the Cas protein may be a catalytically dead Cas protein (“dCas”) and/or have nickase activity. A nickase is a Cas protein that cuts only one strand of a double stranded target. In such embodiments, the dCas or nickase provide a sequence specific targeting functionality that delivers the functional domain to or proximate a target sequence. Example functional domains that may be fused to, operably coupled to, or otherwise associated with a Cas protein can be or include, but are not limited to a nuclear localization signal (NLS) domain, a nuclear export signal (NES) domain, a translational activation domain, a transcriptional activation domain (e.g. VP64, p65, MyoD1, HSF1, RTA, and SETT/9), a translation initiation domain, a transcriptional repression domain (e.g., a KRAB domain, NuE domain, NcoR domain, and a SID domain such as a SID4X domain), a nuclease domain (e.g., FokI), a histone modification domain (e.g., a histone acetyltransferase), a light inducible/controllable domain, a chemically inducible/controllable domain, a transposase domain, a homologous recombination machinery domain, a recombinase domain, an integrase domain, and combinations thereof. Methods for generating catalytically dead Cas9 or a nickase Cas9 (WO 2014/204725, Ran et al. Cell. 2013 Sep. 12; 154(6):1380-1389), Cas12 (Liu et al. Nature Communications, 8, 2095 (2017), and Cas13 (International Patent Publication Nos. WO 2019/005884 and WO2019/060746) are known in the art and incorporated herein by reference.

In some embodiments, the functional domains can have one or more of the following activities: methylase activity, demethylase activity, translation activation activity, translation initiation activity, translation repression activity, transcription activation activity, transcription repression activity, transcription release factor activity, histone modification activity, nuclease activity, single-strand RNA cleavage activity, double-strand RNA cleavage activity, single-strand DNA cleavage activity, double-strand DNA cleavage activity, molecular switch activity, chemical inducibility, light inducibility, and nucleic acid binding activity. In some embodiments, the one or more functional domains may comprise epitope tags or reporters. Non-limiting examples of epitope tags include histidine (His) tags, V5 tags, FLAG tags, influenza hemagglutinin (HA) tags, Myc tags, VSV-G tags, and thioredoxin (Trx) tags. Examples of reporters include, but are not limited to, glutathione-S-transferase (GST), horseradish peroxidase (HRP), chloramphenicol acetyltransferase (CAT) beta-galactosidase, beta-glucuronidase, luciferase, green fluorescent protein (GFP), HcRed, DsRed, cyan fluorescent protein (CFP), yellow fluorescent protein (YFP), and auto-fluorescent proteins including blue fluorescent protein (BFP).

The one or more functional domain(s) may be positioned at, near, and/or in proximity to a terminus of the effector protein (e.g., a Cas protein). In embodiments having two or more functional domains, each of the two can be positioned at or near or in proximity to a terminus of the effector protein (e.g., a Cas protein). In some embodiments, such as those where the functional domain is operably coupled to the effector protein, the one or more functional domains can be tethered or linked via a suitable linker (including, but not limited to, GlySer linkers) to the effector protein (e.g., a Cas protein). When there is more than one functional domain, the functional domains can be same or different. In some embodiments, all the functional domains are the same. In some embodiments, all of the functional domains are different from each other. In some embodiments, at least two of the functional domains are different from each other. In some embodiments, at least two of the functional domains are the same as each other.

Other suitable functional domains can be found, for example, in International Patent Publication No. WO 2019/018423.

Split CRISPR-Cas Systems

In some embodiments, the CRISPR-Cas system is a split CRISPR-Cas system. See e.g., Zetche et al., 2015. Nat. Biotechnol. 33(2): 139-142 and International Patent Publication WO 2019/018423, the compositions and techniques of which can be used in and/or adapted for use with the present invention. Split CRISPR-Cas proteins are set forth herein and in documents incorporated herein by reference in further detail herein. In certain embodiments, each part of a split CRISPR protein are attached to a member of a specific binding pair, and when bound with each other, the members of the specific binding pair maintain the parts of the CRISPR protein in proximity. In certain embodiments, each part of a split CRISPR protein is associated with an inducible binding pair. An inducible binding pair is one which is capable of being switched “on” or “off” by a protein or small molecule that binds to both members of the inducible binding pair. In some embodiments, CRISPR proteins may preferably split between domains, leaving domains intact. In particular embodiments, said Cas split domains (e.g., RuvC and HNH domains in the case of Cas9) can be simultaneously or sequentially introduced into the cell such that said split Cas domain(s) process the target nucleic acid sequence in the algae cell. The reduced size of the split Cas compared to the wild type Cas allows other methods of delivery of the systems to the cells, such as the use of cell penetrating peptides as described herein.

Guide Molecules

The guide molecules (i.e., a molecule comprising a guide sequence) refer to polynucleotides capable of guiding Cas to a target genomic locus and are used interchangeably as in foregoing cited documents such as International Patent Publication No. WO 2014/093622 (PCT/US2013/074667). In general, a guide molecule may be any polynucleotide sequence having sufficient complementarity with a target polynucleotide sequence to hybridize with the target sequence and direct sequence-specific binding of a CRISPR complex to the target sequence. The guide molecule can be a polynucleotide.

The ability of a guide sequence (within a nucleic acid-targeting guide RNA) to direct sequence-specific binding of a nucleic acid-targeting complex to a target nucleic acid sequence may be assessed by any suitable assay. For example, the components of a nucleic acid-targeting CRISPR system sufficient to form a nucleic acid-targeting complex, including the guide sequence to be tested, may be provided to a host cell having the corresponding target nucleic acid sequence, such as by transfection with vectors encoding the components of the nucleic acid-targeting complex, followed by an assessment of preferential targeting (e.g., cleavage) within the target nucleic acid sequence, such as by Surveyor assay (Qui et al. 2004. BioTechniques. 36(4)702-707). Similarly, cleavage of a target nucleic acid sequence may be evaluated in a test tube by providing the target nucleic acid sequence, components of a nucleic acid-targeting complex, including the guide sequence to be tested and a control guide sequence different from the test guide sequence, and comparing binding or rate of cleavage at the target sequence between the test and control guide sequence reactions. Other assays are possible and will occur to those skilled in the art.

In some embodiments, the guide molecule is an RNA. The guide molecule(s) (also referred to interchangeably herein as guide polynucleotide and guide sequence) that are included in the CRISPR-Cas or Cas based system can be any polynucleotide sequence having sufficient complementarity with a target nucleic acid sequence to hybridize with the target nucleic acid sequence and direct sequence-specific binding of a nucleic acid-targeting complex to the target nucleic acid sequence. In some embodiments, the degree of complementarity, when optimally aligned using a suitable alignment algorithm, can be about or more than about 50%, 60%, 75%, 80%, 85%, 90%, 95%, 97.5%, 99%, or more. Optimal alignment may be determined with the use of any suitable algorithm for aligning sequences, non-limiting examples of which include the Smith-Waterman algorithm, the Needleman-Wunsch algorithm, algorithms based on the Burrows-Wheeler Transform (e.g., the Burrows Wheeler Aligner), ClustalW, Clustal X, BLAT, Novoalign (Novocraft Technologies; available at www.novocraft.com), ELAND (Illumina, San Diego, Calif.), SOAP (available at soap.genomics.org.cn), and Maq (available at maq.sourceforge.net).

A guide sequence, and hence a nucleic acid-targeting guide, may be selected to target any target nucleic acid sequence. The target sequence may be DNA. The target sequence may be any RNA sequence. In some embodiments, the target sequence may be a sequence within an RNA molecule selected from the group consisting of messenger RNA (mRNA), pre-mRNA, ribosomal RNA (rRNA), transfer RNA (tRNA), micro-RNA (miRNA), small interfering RNA (siRNA), small nuclear RNA (snRNA), small nucleolar RNA (snoRNA), double stranded RNA (dsRNA), non-coding RNA (ncRNA), long non-coding RNA (lncRNA), and small cytoplasmatic RNA (scRNA). In some preferred embodiments, the target sequence may be a sequence within an RNA molecule selected from the group consisting of mRNA, pre-mRNA, and rRNA. In some preferred embodiments, the target sequence may be a sequence within an RNA molecule selected from the group consisting of ncRNA, and lncRNA. In some more preferred embodiments, the target sequence may be a sequence within an mRNA molecule or a pre-mRNA molecule.

In some embodiments, a nucleic acid-targeting guide is selected to reduce the degree secondary structure within the nucleic acid-targeting guide. In some embodiments, about or less than about 75%, 50%, 40%, 30%, 25%, 20%, 15%, 10%, 5%, 1%, or fewer of the nucleotides of the nucleic acid-targeting guide participate in self-complementary base pairing when optimally folded. Optimal folding may be determined by any suitable polynucleotide folding algorithm. Some programs are based on calculating the minimal Gibbs free energy. An example of one such algorithm is mFold, as described by Zuker and Stiegler (Nucleic Acids Res. 9 (1981), 133-148). Another example folding algorithm is the online webserver RNAfold, developed at Institute for Theoretical Chemistry at the University of Vienna, using the centroid structure prediction algorithm (see e.g., A. R. Gruber et al., 2008, Cell 106(1): 23-24; and PA Carr and GM Church, 2009, Nature Biotechnology 27(12): 1151-62).

In certain embodiments, a guide RNA or crRNA may comprise, consist essentially of, or consist of a direct repeat (DR) sequence and a guide sequence or spacer sequence. In certain embodiments, the guide RNA or crRNA may comprise, consist essentially of, or consist of a direct repeat sequence fused or linked to a guide sequence or spacer sequence. In certain embodiments, the direct repeat sequence may be located upstream (i.e., 5′) from the guide sequence or spacer sequence. In other embodiments, the direct repeat sequence may be located downstream (i.e., 3′) from the guide sequence or spacer sequence.

In certain embodiments, the crRNA comprises a stem loop, e.g., a single stem loop. In certain embodiments, the direct repeat sequence forms a stem loop, e.g., a single stem loop.

In certain embodiments, the spacer length of the guide RNA is from 15 to 35 nt. In certain embodiments, the spacer length of the guide RNA is at least 15 nucleotides. In certain embodiments, the spacer length is from 15 to 17 nt, e.g., 15, 16, or 17 nt, from 17 to 20 nt, e.g., 17, 18, 19, or 20 nt, from 20 to 24 nt, e.g., 20, 21, 22, 23, or 24 nt, from 23 to 25 nt, e.g., 23, 24, or 25 nt, from 24 to 27 nt, e.g., 24, 25, 26, or 27 nt, from 27 to 30 nt, e.g., 27, 28, 29, or 30 nt, from 30 to 35 nt, e.g., 30, 31, 32, 33, 34, or 35 nt, or 35 nt or longer.

The “tracrRNA” sequence or analogous terms includes any polynucleotide sequence that has sufficient complementarity with a crRNA sequence to hybridize. In some embodiments, the degree of complementarity between the tracrRNA sequence and crRNA sequence along the length of the shorter of the two when optimally aligned is about or more than about 25%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, 97.5%, 99%, or higher. In some embodiments, the tracr sequence is about or more than about 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 25, 30, 40, 50, or more nucleotides in length. In some embodiments, the tracr sequence and crRNA sequence are contained within a single transcript, such that hybridization between the two produces a transcript having a secondary structure, such as a hairpin.

In general, degree of complementarity is with reference to the optimal alignment of the sca sequence and tracr sequence, along the length of the shorter of the two sequences. Optimal alignment may be determined by any suitable alignment algorithm and may further account for secondary structures, such as self-complementarity within either the sca sequence or tracr sequence. In some embodiments, the degree of complementarity between the tracr sequence and sca sequence along the length of the shorter of the two when optimally aligned is about or more than about 25%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 95%, 97.5%, 99%, or higher.

In some embodiments, the degree of complementarity between a guide sequence and its corresponding target sequence can be about or more than about 50%, 60%, 75%, 80%, 85%, 90%, 95%, 97.5%, 99%, or 100%; a guide or RNA or sgRNA can be about or more than about 5, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 29, 30, 35, 40, 45, 50, 75, or more nucleotides in length; or guide or RNA or sgRNA can be less than about 75, 50, 45, 40, 35, 30, 25, 20, 15, 12, or fewer nucleotides in length; and tracr RNA can be 30 or 50 nucleotides in length. In some embodiments, the degree of complementarity between a guide sequence and its corresponding target sequence is greater than 94.5% or 95% or 95.5% or 96% or 96.5% or 97% or 97.5% or 98% or 98.5% or 99% or 99.5% or 99.9%, or 100%. Off target is less than 100% or 99.9% or 99.5% or 99% or 99% or 98.5% or 98% or 97.5% or 97% or 96.5% or 96% or 95.5% or 95% or 94.5% or 94% or 93% or 92% or 91% or 90% or 89% or 88% or 87% or 86% or 85% or 84% or 83% or 82% or 81% or 80% complementarity between the sequence and the guide, with it being advantageous that off target is 100% or 99.9% or 99.5% or 99% or 99% or 98.5% or 98% or 97.5% or 97% or 96.5% or 96% or 95.5% or 95% or 94.5% complementarity between the sequence and the guide.

In some embodiments according to the invention, the guide RNA (capable of guiding Cas to a target locus) may comprise (1) a guide sequence capable of hybridizing to a genomic target locus in the eukaryotic cell; (2) a tracr sequence; and (3) a tracr mate sequence. All (1) to (3) may reside in a single RNA, i.e., an sgRNA (arranged in a 5′ to 3′ orientation), or the tracr RNA may be a different RNA than the RNA containing the guide and tracr sequence. The tracr hybridizes to the tracr mate sequence and directs the CRISPR/Cas complex to the target sequence. Where the tracr RNA is on a different RNA than the RNA containing the guide and tracr sequence, the length of each RNA may be optimized to be shortened from their respective native lengths, and each may be independently chemically modified to protect from degradation by cellular RNase or otherwise increase stability.

Many modifications to guide sequences are known in the art and are further contemplated within the context of this invention. Various modifications may be used to increase the specificity of binding to the target sequence and/or increase the activity of the Cas protein and/or reduce off-target effects. Example guide sequence modifications are described in International Patent Application No. PCT US2019/045582, specifically paragraphs [0178]-[0333]. which is incorporated herein by reference.

Methods of Identifying Defense Systems

The present disclosure further provides methods of identifying defense systems. In some embodiments, the methods are based on the facts that genes of defense systems often form clusters in the genome. Thus, candidate defense system genes may be those co-locate with known defense system genes in the genomes of multiple cells of a species or strain. Accordingly, novel defense system be identified by recording or identifying candidate genes located close to known defense systems and identifying homologs of the candidate genes in multiple genomes of the species or cells. The candidate genes that have a significant number of homologs close to known defense system genes may be selected as a putative novel defense system genes. The selected putative defense system genes may be further validated by experiments, e.g., by testing their effects on phage resistance.

In some examples, the methods of identifying a defense system in a microorganism may comprise identifying genes of known defense systems in a plurality of genomes of the microorganism; recording candidate genes located within 50 kb from the identified genes of known defense systems on the genomes; identifying homologs of each candidate gene on the genomes; and selecting candidate genes wherein at least 10% of homologs of the candidate genes are within 5000 nucleotides and/or 5 genes from one or more known defense systems on the genomes. FIGS. 4 and 8 show flow charts of exemplary methods of identifying novel defense systems.

In some cases, the recorded candidate genes may be located less than 50 kb, less than 40 kb, less than 30 kb, less than 20 kb, less than 10 kb, less than 8 kb, less than 6 kb, less than 4 kb, less than 2 kb, less than 1000 bp, less than 800 bp, less than 600 bp, less than 400 bp, or less than 200 bp from the identified genes of known defense systems on the genomes. In some cases, the recorded candidate genes may be located less than 20, less than 18, less than 16, less than 14, less than 12, less than 10, less than 8, less than 6, less than 4, or less than 2 open reading frames from the identified genes of known defense systems on the genomes.

The methods of identifying defense systems may comprise obtaining sequence data of multiple genomes. The multiple genomes may be those from different microorganism cells of the same species or strain. The sequence data used may be from at least 2, at least 3, at least 4, at least 5, at least 6, at least 7, at least 8, at least 9, at least 10, at least 20, at least 30, at least 40, at least 50, at least 60, at least 70, at least 80, at least 90, at least 100, at least 200, at least 400, at least 600, at least 800, at least 1000, at least 2000, at least 4000, at least 8000, at least 10,000, at least 20,000, at least 40,000, at least 60,000, at least 80,000, at least 100,000, at least 120,000, at least 140,000, at least 160,000, at least 180,000, or at least 200,000 genomes.

The methods of identifying defense systems may comprise identifying known defense system genes in multiple genomes. The known defense systems or their genes may be identified using sequence alignments and comparing with known sequences, motifs or domains in a protein or nucleic acid domain database. The domains within the gene members of each system may be analyzed bioinformatically using the tools HHpred (Soding J, Biegert A, Lupas A N. (2005) The HHpred interactive server for protein homology detection and structure prediction, nucleic Acids Res. 33: W244-W248; Alva V, Nam S-Z, Soding J, Lupas A N, I. S, S. C, et al. (2016) The MPI bioinformatics Toolkit as an integrative platform for advanced protein sequence and structure analysis, nucleic Acids Res. Oxford University Press; 44: W410-W415), Phyre2 (Kelley L A, Mezulis S, Yates C M, Wass M N, Sternberg M J E. (2015) The Phyre2 web portal for protein modeling, prediction and analysis. Nat Protoc. Nature Research; 10: 845-858), PSI-BLAST (Altschul S F, Madden T L, Schaffer A A, Zhang J, Zhang Z, Miller W, et al. (1997) Gapped BLAST and PSI-BLAST: a new generation of protein database search programs, nucleic Acids Res. 25: 3389-402).

In some examples, the database may be PFAM. The term “pfam” may encompass a large collection of protein domains and protein families maintained by the pfam consortium and available at several sponsored world wide web sites, including for example: pfam.sanger.ac.uk/(Welcome Trust, Sanger Institute); pfam.sbc.su.se/ (Stockholm Bioinformatics Center); pfam(dot)janelia(dot)org/(Janelia Farm, Howard Hughes Medical Institute); pfam(dot)jouy(dot)inra(dot)fr/(Institut national de la Recherche Agronomique); and pfam.ccbb.re.kr/. pfam domains and families are identified using multiple sequence alignments and hidden Markov models (HMMs) (see e.g. R. D. Finnet et al. nucleic Acids Research Database (2010) Issue 38: D211-222). By accessing the pfam database, for example, using any of the above-reference websites, protein sequences can be queried against the hidden Markov models (HMMMs) using HMMER homology search software (e.g., HMMER3, hmmer(dot)j anelia(dot)org/).

In some examples, the database may be NCBI's Conserved Domain Database (CDD) (Marchler-Bauer A, Lu S, Anderson J B, Chitsaz F, Derbyshire M K, DeWeese-Scott C, et al. (2011) CDD: a Conserved Domain Database for the functional annotation of proteins, nucleic Acids Res. 39: D225-D229).

In some examples, the database may be COG. The term “COG (clusters of orthologous groups)” may encompass a large collection of protein families classified according to their homologous relationships available at e.g. the NCBI COG website (www(dot)ncbi(dot)nlm(dot)nih(dot)gov/COG). Each COG comprises a group of proteins found to be orthologous across at least three lineages and likely corresponds to an ancient conserved domain [see e.g. Tatusov et al. Science 1997 Oct. 24; 278(5338):631-7; and Tatusov et al. nucleic Acids Res. 2000 Jan. 1; 28(1): 33-36].

The methods may further comprise filter false positives among the identified known defense genes.

The methods may further comprise, after the false positives of the known defense genes are filtered, identifying known defense systems. A defense system may comprise one or more defense proteins or nucleic acids involved in defense function. Examples of the known defense systems used in the methods include mobilome, a CRISPR system, Type I RM and McrBC system, BREX-associated system, Zorya system, Wadjet system, Druantia-associated system, Hachiman system, Lamassu system, Thoeris-like system, Gabija system, Septu system, pAgo system, Shedu system, Kiwa system, DUF499-DUF1156 system, and Toxin/antitoxin system.

The methods may further comprise recording (e.g., tabulating) candidate genes, which are genes within certain distance of a known defense system gene. The candidate genes may be on the 5′ side or the 3′ side of the defense system gene. For examples, the candidate genes may be within 50 kb, 40 kb, 30 kb, 20 kb, 18 kb, 16 kb, 14 kb, 12 kb, 10 kb, 9 kb, 8 kb, 7 kb, 6 kb, 5 kb, 4 kb, 3 kb, 2 kb, 1 kb, 900 bp, 800 bp, 700 bp, 600 bp, 500 bp, 400 bp, 300 bp, 200 bp, or 100 bp from the known defense system. In some examples, the candidate genes are within 10 kb of a defense system. In some cases, each of the candidate gene is called a seed.

The methods may further comprise, for each of the candidate gene, identifying homologs in the genomes. A homolog of the candidate gene may be a gene that share at least 50%, 60%, 70%, 80%, 90%, 95%, 99%, or 100% sequence identity with the candidate gene. In some examples, the homologs share at least 70% of sequence identity with the candidate genes.

In some cases, the homologs may have an E-value of 10⁻³ or lower, 10⁻⁴ or lower, 10⁻⁵ or lower, 10⁻⁶ or lower, 10⁻⁷ or lower, or 10⁻⁸ or lower. The Expect value or E-value refers to a parameter that describes the number of hits one can “expect” to see by chance when searching a database of a particular size. Essentially, the E-value describes the random background noise. For example, an E value of 1 assigned to a hit can be interpreted as meaning that in a database of the current size one might expect to see 1 match with a similar score simply by chance. The lower the E-value, or the closer it is to zero, the more “significant” the match (e.g., homology, identity) is.

The methods may further comprise selecting putative defense system genes from the candidate genes. The selected putative defense system genes may have at least a portion of the homologs in proximity to the known defense system genes. For example, a selected putative defense system genes may have at least 5%, at least 10%, at least 11%, at least 12%, at least 13%, at least 14%, at least 15%, at least 16%, at least 17%, at least 18%, at least 19%, at least 20%, at least 25%, at least 30%, at least 35%, at least 40%, at least 45%, or at least 50% of its homologs. In some examples, a selected putative defense system genes may have at least 15% of the its homologs in proximity to the known defense system.

In some embodiments, the selection of putative defense system genes comprises selecting putative cassettes comprising multiple candidate genes. Each of the candidate genes in the putative cassette may have at least 5%, at least 10%, at least 11%, at least 12%, at least 13%, at least 14%, at least 15%, at least 16%, at least 17%, at least 18%, at least 19%, at least 20%, at least 25%, at least 30%, at least 35%, at least 40%, at least 45%, or at least 50% of its homologs. In some examples, each of the candidate genes in the putative cassette may have at least 15% of the its homologs in proximity to the known defense system.

When a candidate gene or its homolog is in proximity to a known defense gene, the candidate gene or its homolog may be within 1000 nt, 900 nt, 800 nt, 700 nt, 600 nt, 500 nt, 400 nt, 300 nt, 200 nt, 100 nt, 80 nt, 60 nt, 40 nt, 20 nt, 10 nt, 5 nt, 4 nt, 3 nt, 2 nt, or 1 nt from the known defense gene.

Validation of Identified Defense Systems

In some embodiments, the methods further comprise validating the selected putative defense systems and genes. The validation may be performed by introducing the putative defense system in host cells, infected the cells with virus (e.g., phages), and test phage infection efficiencies. Host cells introduced with a functional defense system may significantly suppress the phage infection efficiency. Examples of methods of validation include those described in Doron S. et al., Science. 2018 Mar. 2; 359(6379), Systematic discovery of antiphage defense systems in the microbial pangenome.

Methods of Use

The defense systems herein may be introduced to host cells to manipulate the cells' function and activity. In some examples, the defense systems may be introduced to bacteria to manipulate their resistance to phage infection. In some embodiments, the defense systems may be introduced to eukaryotic cells to manipulate the function, structure, level, and/or expression of proteins or nucleic acids.

Protection of Bacteria

In some embodiments, the defense systems may be introduced to bacteria or other host cells to increase the cells' resistance to an infection. In some cases, the defense systems may be used to protect bacterial fermentation from phage infection and contamination, which is a main cause of slow fermentation or complete starter failure. The lack of bacteria which survive adequately can result in milk products which do not have a desirable taste.

In some embodiments, the defense systems may be introduced to bacteria useful in the manufacture of dairy and fermentation processing such as, but not limited to, milk-derived products, such as cheeses, yogurt, fermented milk products, sour milks, and buttermilk. In some embodiments, the bacteria are useful as a part of the starter culture in the manufacture of dairy and fermentation processing. In some embodiments, the starter culture is a food grade starter culture. Examples of such bacteria include lactic acid bacteria, which encompass Gram positive, microaerophillic or anaerobic bacteria which ferment sugar with the production of acids including lactic acid as the predominantly produced acid, acetic acid, formic acid and propionic acid. Examples of the bacteria include Lactococcus species, Streptococcus species, Lactobacillus species, Leuconostoc species, Oenococcus species, Pediococcus species, Bifidobacterium species, and Propionibacterium species. In some embodiments, bacteria protected in a method of protecting bacteria from phage infection comprises bacteria selected from a Lactococcus species, a Streptococcus species, a Lactobacillus species, a Leuconostoc species, a Oenococcus species, a Pediococcus species, a Bifidobacterium, and a Propionibacterium species. In some embodiments, a method of protecting bacteria from phage infection comprises protecting a Lactococcus species of bacteria. In some embodiments a method of protecting bacteria from phage infection comprises protecting a Streptococcus species of bacteria. In some embodiments a method of protecting bacteria from phage infection comprises protecting a Lactobacillus species of bacteria. In some embodiments, a method of protecting bacteria from phage infection comprises protecting a Leuconostoc species of bacteria. In some embodiments, a method of protecting bacteria from phage infection comprises protecting a Oenococcus species of bacteria. In some embodiments, a method of protecting bacteria from phage infection comprises protecting a Pediococcus species of bacteria. In some embodiments, a method of protecting bacteria from phage infection comprises protecting a Bifidobacterium of bacteria. In some embodiments, a method of protecting bacteria from phage infection comprises protecting a Propionibacterium species of bacteria.

Enhancing Bacteria Susceptibility to Infection

In some embodiments, the defense systems may be introduced to bacteria or other host cells to decrease the cells' resistance to an infection. In some examples, the defense system may be engineered to reduce or eliminate its defense function. In certain examples, one or more modulating agents that manipulate the function or level of the defense systems may be introduced to the host cells.

In some examples, the present disclosure provides methods of treating bacterial infection in a subject in need thereof, the method comprising administering to the subject a therapeutically effective amount of the anti-Defense System agent, thereby treating the bacterial infection in the subject. In some embodiments, there is provided the agent, for use in the treatment of bacterial infection in a subject in need thereof. In some examples, the present disclosure provides methods of generating cells as reagents that can be easily infected by phages. Such cells may be used as research tools in biotechnology.

Engineered Cells

The present disclosure provides engineered cells comprising the systems and/or polynucleotides herein. In some cases, the cells may be where the plasmids and/or vesicles are produced. For example, the cells may be host cells, such as bacterial cells. In some examples, the cells may be eukaryotic cells, in which the systems are used for manipulating the function and other activities of the cells.

The cell may be a prokaryotic cell. The prokaryotic cell may be a bacterial cell. The prokaryotic cell may be an archaea cell. Examples of bacterial cells include those from the genus Escherichia, Bacillus, Lactobacillus, Rhodococcus, Rodhobacter, Synechococcus, Synechoystis, Pseudomonas, Psedoaltermonas, Stenotrophamonas, and Streptomyces. Examples of bacterial cells include Escherichia coli cells, Caulobacter crescentus cells, Rodhobacter sphaeroides cells, Psedoaltermonas haloplanktis cells. Suitable strains of bacterial include, but are not limited to BL21(DE3), DL21(DE3)-pLysS, BL21 Star-pLysS, BL21-SI, BL21-AI, Tuner, Tuner pLysS, Origami, Origami B pLysS, Rosetta, Rosetta pLysS, Rosetta-gami-pLysS, BL21 CodonPlus, AD494, BL2trxB, HMS174, NovaBlue(DE3), BLR, C41(DE3), C43(DE3), Lemo21(DE3), Shuffle T7, ArcticExpress and ArticExpress (DE3).

The cell can be a eukaryotic cell. The eukaryotic cells may be those of or derived from a particular organism, such as a plant or a mammal, including human, or non-human eukaryote or animal or mammal as herein discussed, e.g., mouse, rat, rabbit, dog, livestock, or non-human mammal or primate. In some aspects the engineered cell can be a cell line. Examples of cell lines include C8161, CCRF-CEM, MOLT, mIMCD-3, NHDF, HeLa-S3, Huhl, Huh4, Huh7, HUVEC, HASMC, HEKn, HEKa, MiaPaCell, Pancl, PC-3, TF1, CTLL-2, C1R, Rath, CV1, RPTE, A10, T24, J82, A375, ARH-77, Calul, SW480, SW620, SKOV3, SK-UT, CaCo2, P388D1, SEM-K2, WEHI-231, HB56, TIB55, Jurkat, J45.01, LRMB, Bc1-1, BC-3, IC21, DLD2, Raw264.7, NRK, NRK-52E, MRCS, MEF, Hep G2, HeLa B, HeLa T4, COS, COS-1, COS-6, COS-M6A, BS-C-1 monkey kidney epithelial, BALB/3T3 mouse embryo fibroblast, 3T3 Swiss, 3T3-L1, 132-d5 human fetal fibroblasts; 10.1 mouse fibroblasts, 293-T, 3T3, 721, 9L, A2780, A2780ADR, A2780cis, A172, A20, A253, A431, A-549, ALC, B16, B35, BCP-1 cells, BEAS-2B, bEnd.3, BHK-21, BR 293, BxPC3, C3H-10T1/2, C6/36, Cal-27, CHO, CHO-7, CHO-IR, CHO-K1, CHO-K2, CHO-T, CHO Dhfr−/−, COR-L23, COR-L23/CPR, COR-L23/5010, COR-L23/R23, COS-7, COV-434, CML T1, CMT, CT26, D17, DH82, DU145, DuCaP, EL4, EM2, EM3, EMT6/AR1, EMT6/AR10.0, FM3, H1299, H69, HB54, HB55, HCA2, HEK-293, HeLa, Hepalc1c7, HL-60, HMEC, HT-29, Jurkat, JY cells, K562 cells, Ku812, KCL22, KG1, KYO1, LNCap, Ma-Mel 1-48, MC-38, MCF-7, MCF-10A, MDA-MB-231, MDA-MB-468, MDA-MB-435, MDCK II, MDCK II, MOR/0.2R, MONO-MAC 6, MTD-1A, MyEnd, NCI-H69/CPR, NCI-H69/LX10, NCI-H69/LX20, NCI-H69/LX4, NIH-3T3, NALM-1, NW-145, OPCN/OPCT cell lines, Peer, PNT-1A/PNT 2, RenCa, RIN-5F, RMA/RMAS, Saos-2 cells, Sf-9, SkBr3, T2, T-47D, T84, THP1 cell line, U373, U87, U937, VCaP, Vero cells, WM39, WT-49, X63, YAC-1, YAR, and transgenic varieties thereof. Cell lines are available from a variety of sources known to those with skill in the art (see, e.g., the American Type Culture Collection (ATCC) (Manassas, Va.)).

Further, the cell may be a fungus cell. As used herein, a “fungal cell” refers to any type of eukaryotic cell within the kingdom of fungi. Phyla within the kingdom of fungi include Ascomycota, Basidiomycota, Blastocladiomycota, Chytridiomycota, Glomeromycota, Microsporidia, and Neocallimastigomycota. Fungal cells may include yeasts, molds, and filamentous fungi. In some embodiments, the fungal cell is a yeast cell.

As used herein, the term “yeast cell” refers to any fungal cell within the phyla Ascomycota and Basidiomycota. Yeast cells may include budding yeast cells, fission yeast cells, and mold cells. Without being limited to these organisms, many types of yeast used in laboratory and industrial settings are part of the phylum Ascomycota. In some embodiments, the yeast cell is an S. cerervisiae, Kluyveromyces marxianus, or Issatchenkia orientalis cell. Other yeast cells may include without limitation Candida spp. (e.g., Candida albicans), Yarrowia spp. (e.g., Yarrowia hpolytica), Pichia spp. (e.g., Pichia pastoris), Kluyveromyces spp. (e.g., Kluyveromyces lactis and Kluyveromyces marxianus), Neurospora spp. (e.g., Neurospora crassa), Fusarium spp. (e.g., Fusarium oxysporum), and Issatchenkia spp. (e.g., Issatchenkia orientalis, a.k.a. Pichia kudriavzevii and Candida acidothermophilum). In some embodiments, the fungal cell is a filamentous fungal cell. As used herein, the term “filamentous fungal cell” refers to any type of fungal cell that grows in filaments, i.e., hyphae or mycelia. Examples of filamentous fungal cells may include without limitation Aspergillus spp. (e.g., Aspergillus niger), Trichoderma spp. (e.g., Trichoderma reesei), Rhizopus spp. (e.g., Rhizopus oryzae), and Mortierella spp. (e.g., Mortierella isabellina).

In some embodiments, the fungal cell is an industrial strain. As used herein, “industrial strain” refers to any strain of fungal cell used in or isolated from an industrial process, e.g., production of a product on a commercial or industrial scale. Industrial strain may refer to a fungal species that is typically used in an industrial process, or it may refer to an isolate of a fungal species that may be also used for non-industrial purposes (e.g., laboratory research). Examples of industrial processes may include fermentation (e.g., in production of food or beverage products), distillation, biofuel production, production of a compound, and production of a polypeptide. Examples of industrial strains can include, without limitation, JAY270 and ATCC4124.

In some embodiments, the fungal cell is a polyploid cell. As used herein, a “polyploid” cell may refer to any cell whose genome is present in more than one copy. A polyploid cell may refer to a type of cell that is naturally found in a polyploid state, or it may refer to a cell that has been induced to exist in a polyploid state (e.g., through specific regulation, alteration, inactivation, activation, or modification of meiosis, cytokinesis, or DNA replication). A polyploid cell may refer to a cell whose entire genome is polyploid, or it may refer to a cell that is polyploid in a particular genomic locus of interest.

In some embodiments, the fungal cell is a diploid cell. As used herein, a “diploid” cell may refer to any cell whose genome is present in two copies. A diploid cell may refer to a type of cell that is naturally found in a diploid state, or it may refer to a cell that has been induced to exist in a diploid state (e.g., through specific regulation, alteration, inactivation, activation, or modification of meiosis, cytokinesis, or DNA replication). For example, the S. cerevisiae strain S228C may be maintained in a haploid or diploid state. A diploid cell may refer to a cell whose entire genome is diploid, or it may refer to a cell that is diploid in a particular genomic locus of interest. In some embodiments, the fungal cell is a haploid cell. As used herein, a “haploid” cell may refer to any cell whose genome is present in one copy. A haploid cell may refer to a type of cell that is naturally found in a haploid state, or it may refer to a cell that has been induced to exist in a haploid state (e.g., through specific regulation, alteration, inactivation, activation, or modification of meiosis, cytokinesis, or DNA replication). For example, the S. cerevisiae strain S228C may be maintained in a haploid or diploid state. A haploid cell may refer to a cell whose entire genome is haploid, or it may refer to a cell that is haploid in a particular genomic locus of interest.

In some aspects, the cell is a cell obtained from a subject. In some embodiments, the subject is a healthy or non-diseased subject.

In some embodiments, a cell transfected with one or more vectors described herein is used to establish a new cell line comprising one or more vector-derived sequences. The cells can be used to produce the engineered systems. In some embodiments, the engineered systems are produced, harvested, and delivered to a subject in need thereof. In some embodiments, the engineered cells are delivered to a subject. Other uses for the engineered cells are described elsewhere herein.

In some aspects, the present disclosure also provides tissues, organs, or subjects (e.g., animals, plants, etc.) comprising one or more cells described above.

Engineered Animals

The present disclosure further provides engineered organisms that comprise the systems, polynucleotides, and/or vectors. The engineered organism, in some embodiments, can be an animal; for example, a mammal. In aspects, the organism is a non-human mammal. In an aspect, the invention provides a non-human eukaryotic organism; e.g., a multicellular eukaryotic organism, comprising a eukaryotic engineered cell according to any of the described embodiments. In other aspects, the invention provides a eukaryotic organism, preferably a multicellular eukaryotic organism, comprising a eukaryotic host cell according to any of the described embodiments. The engineered organism in some embodiments of these aspects may be an animal, for example, a mammal. In some embodiments, the engineered organism can be an arthropod such as an insect. In some embodiments, the engineered organism can be a farm or other production animals, including but not limited to pigs, goats, cattle, chickens, and sheep.

Various methods of generating transgenic animals that contain exogenous genetic material can be generated by various methods that will be appreciated by those of ordinary skill in the art. Such techniques include, but are not limited to, polynucleotide or virus microinjection into a pronucleus in a developing embryo, cell cytoplasm, or into the vasculature or blastoderm of a developing embryo (for example, in chickens); embryonic stem cell or other stem cell (e.g. pluripotent, multipotent, or induced pluripotent stem cell) manipulation (e.g. introduction of transgene or modification via gene editing); techniques utilizing a cre-lox approach, viral vectors, nuclear transfer, primoridial germ cell manipulation, spermatogonial manipulation. Many variations of these basic techniques have been done and are included within the scope of this disclosure. Exemplary methods for generating various transgenic animals can be found, for example, in any of the following, which are incorporated by reference as if expressed in their entirety: “Transgenic Animal Science: Principles and Methods” (1991) Charles River Laboratory; Hammer R. E, Pursel V. G, et al: Production of transgenic rabbits, sheep and pigs by microinjection. Nature 1985; 315(6021):680-683; Jaenisch R: Germ line integration and Mendelian transmission of the exogenous Moloney leukemia virus. Proc Natl Acad Sci.1976; 73:1260-1264; Brackett B G, Boranska W, Sawicki W, Koprowski: Uptake of heterologous genome by mammalian spermatozoa and its transfer to ova through fertilization. Proc Natl Acad Sci.1971; 68:353-357; Gordon J. W, Scangos G. A, Plotkin D. J, Barbosa J. A, Ruddle F. H: Genetic transformation of mouse embryos by microinjection of purified DNA. Proc Natl Acad Sci.1980; 77:179-184; Lavitrano M, Camaioni A, Fazio V. M, Dolci S, Farace M. G, Spadafora C: Sperm cells as vectors for introducing foreign DNA into eggs: genetic transformation of mice. Cell 1989; 57(5):717-723; Chang K, Qian J, et al: Effective generation of transgenic pigs and mice by linker based sperm-mediated gene transfer. BMC Biotechnol. 2002; 2(1):5; Perry A. C, Wakayama T, Kishikawa H, Kasai T, Okabe M, Toyoda Y, Yanagimachi R: Mammalian transgenesis by intracytoplasmic sperm injection. Science 1999; 284 (5417):1180-1183; Clark J, Whitelaw B: A future for transgenic livestock. Rev. Genet. 2003; 4(10):825-833; Bowen R. A: Efficient production of transgenic cattle by retroviral infection of early embryos. Reprod. Dev. 1995; 40(3):386-390; Shim H, Gutierrez-Adan A, Chen L. R, BonDurant R. H, Behboodi E, Anderson G. B: Isolation of pluripotent stem cells from cultured porcine primordial germ cells. Reprod. 1997; 57(5):1089-1095; Maclean, N: Animals with Novel Genes. Cambridge University Press. Cambridge, UK, 1995; Ebert, K. M, and Schindler J. E. S: Transgenic farm animals: Progress report. Theriogenology 1993; 39: 121-135; Gossler et al: Transgenesis by means of blastocyst-derived embryonic stem cell line, Proceedings of National Academic Science 1986; 83:9065-9069; Makoto Nagano, Clayton J. Brinster, et al: Transgenic mice produced by retroviral transduction of male germ-line stem cells. PNAS2001; 98(23):13090-13095; Alexander Baguisi et al: Production of goats by somatic cell nuclear transfer. Nature Biotechnology 1999; 17:456; Esponda P: Transfection of gametes. A method to generate transgenic animals. J. Morphol. 2005; 23(3):281-284; Andreas Sched, Zonia Larin, et al: A method for the generation of YAC transgenic mice by pronuclear microinjection. Nucleic Acids Research1993; 21(20):4783-4787; Ralph L. Brinster. Germline Stem Cell Transplantation and Transgenesis. Reproductive Biology Journal 2002; 296:2174; Hofmann A, Zakhartchenko V, et al: Generation of transgenic cattle by lentiviral gene transfer into oocytes. Reprod. 2004; 71(2):405-409; Sang H. M: Transgenics, chickens and therapeutic proteins. Vox Sanguinis. 2004; 87(2):S164-5166; Meade H. M, Echelard Y, et al: Expression of recombinant proteins in the milk of transgenic animals. In Gene expression systems: using nature for the art of expression. Academic Press, San Diego. 1999; 399-427; Rudolph N. S: Biopharmaceutical production in transgenic livestock. Trends Biotechnol. 1999; 17(9):367-374; Kuroiwa Y, Kasinathan P, et al: Cloned transchromosomic calves producing human immunoglobulin. Nature Biotechnol. 2002; 20(9):889-894; Swabson M. E, Martin M. J, et al: Production of functional human hemoglobin in transgenic swine. Biotechnology 1992; 10(5):557-559, Niemann H: Transgenic pigs expressing plant genes. natl Acad. Sci.2004; 101(19):7211-7212.

Engineered Plants and Algae

The engineered organism, in some embodiments, can be a plant and algae that comprise the systems, polynucleotides, and/or vectors. In general, the term “plant” relates to any various photosynthetic, eukaryotic, unicellular or multicellular organism of the kingdom Plantae characteristically growing by cell division, containing chloroplasts, and having cell walls comprised of cellulose. The term plant encompasses monocotyledonous and dicotyledonous plants. In some embodiments, the engineered plant is a dicotyledonous plant belonging to the orders Magniolales, Illiciales, Laurales, Piperales, Aristochiales, Nymphaeales, Ranunculales, Papeverales, Sarraceniaceae, Trochodendrales, Hamamelidales, Eucomiales, Leitneriales, Myricales, Fagales, Casuarinales, Caryophyllales, Batales, Polygonales, Plumbaginales, Dilleniales, Theales, Malvales, Urticales, Lecythidales, Violales, Salicales, Capparales, Ericales, Diapensales, Ebenales, Primulales, Rosales, Fabales, Podostemales, Haloragales, Myrtales, Cornales, Proteales, San tales, Rafflesiales, Celastrales, Euphorbiales, Rhamnales, Sapindales, Juglandales, Geraniales, Polygalales, Umbellales, Gentianales, Polemoniales, Lamiales, Plantaginales, Scrophulariales, Campanulales, Rubiales, Dipsacales, and Asterales. In some embodiments, the plant is a monocotyledonous plant such as one belonging to an order of the group of: Alismatales, Hydrocharitales, Najadales, Triuridales, Commelinales, Eriocaulales, Restionales, Poales, Juncales, Cyperales, Typhales, Bromeliales, Zingiberales, Arecales, Cyclanthales, Pandanales, Arales, Lilliales, and Orchid ales, or with plants belonging to Gymnospermae, e.g. those belonging to the orders Pinales, Ginkgoales, Cycadales, Araucariales, Cupressales and Gnetales. In some embodiments, the engineered plant can be a plant of a species included in the non-limitative list of dicot, monocot or gymnosperm genera hereunder: Atropa, Alseodaphne, Anacardium, Arachis, Beilschmiedia, Brassica, Carthamus, Cocculus, Croton, Cucumis, Citrus, Citrullus, Capsicum, Catharanthus, Cocos, Coffea, Cucurbita, Daucus, Duguetia, Eschscholzia, Ficus, Fragaria, Glaucium, Glycine, Gossypium, Helianthus, Hevea, Hyoscyamus, Lactuca, Landolphia, Linum, Litsea, Lycopersicon, Lupinus, Manihot, Majorana, Malus, Medicago, Nicotiana, Olea, Parthenium, Papaver, Persea, Phaseolus, Pistacia, Pisum, Pyrus, Prunus, Raphanus, Ricinus, Senecio, Sinomenium, Stephania, Sinapis, Solanum, Theobroma, Trifolium, Trigonella, Vicia, Vinca, Vilis, and Vigna; and the genera Allium, Andropogon, Aragrostis, Asparagus, Avena, Cynodon, Elaeis, Festuca, Festulolium, Heterocallis, Hordeum, Lemna, Lolium, Musa, Oryza, Panicum, Pannesetum, Phleum, Poa, Secale, Sorghum, Triticum, Zea, Abies, Cunninghamia, Ephedra, Picea, Pinus, and Pseudotsuga.

Specifically, the engineered plants are intended to include without limitation angiosperm and gymnosperm plants such as acacia, alfalfa, amaranth, apple, apricot, artichoke, ash tree, asparagus, avocado, banana, barley, beans, beet, birch, beech, blackberry, blueberry, broccoli, Brussel's sprouts, cabbage, canola, cantaloupe, carrot, cassava, cauliflower, cedar, a cereal, celery, chestnut, cherry, Chinese cabbage, citrus, clementine, clover, coffee, corn, cotton, cowpea, cucumber, cypress, eggplant, elm, endive, eucalyptus, fennel, figs, fir, geranium, grape, grapefruit, groundnuts, ground cherry, gum hemlock, hickory, kale, kiwifruit, kohlrabi, larch, lettuce, leek, lemon, lime, locust, pine, maidenhair, maize, mango, maple, melon, millet, mushroom, mustard, nuts, oak, oats, oil palm, okra, onion, orange, an ornamental plant or flower or tree, papaya, palm, parsley, parsnip, pea, peach, peanut, pear, peat, pepper, persimmon, pigeon pea, pine, pineapple, plantain, plum, pomegranate, potato, pumpkin, radicchio, radish, rapeseed, raspberry, rice, rye, sorghum, safflower, sallow, soybean, spinach, spruce, squash, strawberry, sugar beet, sugarcane, sunflower, sweet potato, sweet corn, tangerine, tea, tobacco, tomato, trees, triticale, turf grasses, turnips, vine, walnut, watercress, watermelon, wheat, yams, yew, and zucchini.

The term plant also encompasses Algae, which are mainly photoautotrophs unified primarily by their lack of roots, leaves and other organs that characterize higher plants. Thus, in some embodiments, the modified organism is an algae. “Algae” and “algae cells,” include but are not limited to, algae or cells thereof selected from several eukaryotic phyla, including the Rhodophyta (red algae), Chlorophyta (green algae), Phaeophyta (brown algae), Bacillariophyta (diatoms), Eustigmatophyta and dinoflagellates as well as the prokaryotic phylum Cyanobacteria (blue-green algae). The term “algae” includes for example algae selected from Amphora, Anabaena, Anikstrodesmis, Botryococcus, Chaetoceros, Chlamydomonas, Chlorella, Chlorococcum, Cyclotella, Cylindrotheca, Dunaliella, Emiliana, Euglena, Hematococcus, Isochrysis, Monochrysis, Monoraphidium, Nannochloris, Nannnochloropsis, Navicula, Nephrochloris, Nephroselmis, Nitzschia, Nodularia, Nostoc, Oochromonas, Oocystis, Oscillartoria, Pavlova, Phaeodactylum, Playtmonas, Pleurochrysis, Porhyra, Pseudoanabaena, Pyramimonas, Stichococcus, Synechococcus, Synechocystis, Tetraselmis, Thalassiosira, and Trichodesmium.

As noted above, part of the plant may be engineered to include and/or express one or more components of the engineered system described herein. As used herein, “plant tissue” refers to part of the plant and includes cells. The term “plant cell” as used herein refers to individual units of a living plant, either in an intact whole plant or in an isolated form grown in in vitro tissue cultures, on media or agar, in suspension in a growth media or buffer or as a part of higher organized unites, such as, for example, plant tissue, a plant organ, or a whole plant.

As used herein, “protoplast” refers to a plant cell that has had its protective cell wall completely or partially removed using, for example, mechanical or enzymatic means resulting in an intact biochemical competent unit of living plant that can reform their cell wall, proliferate and regenerate grow into a whole plant under proper growing conditions.

Therapeutic and Diagnostic Applications

In another aspect, the present disclosure provides methods for treating diseases or conditions in a subject with the systems described herein. In some embodiments, the methods comprise administering one or more components of the systems, the polynucleotides, the vectors the cells, or any combination thereof, to a subject (e.g., a subject in need thereof). The systems may comprise or may cause production of therapeutic and/or diagnostic agents, such as the genetic modulating agents. in certain examples, the methods may comprise administering one or more cells comprising the vesicles or plasmids into a subject.

The diseases may be genetic diseases. Genetic diseases that can be treated are discussed in greater detail elsewhere herein. Other diseases include but are not limited to any of the following: cancer, Acubetivacter infections, actinomycosis, African sleeping sickness, AIDS/HIV, ameobiasis, Anaplasmosis, Angiostrongyliasis, Anisakiasis, Anthrax, Acranobacterium haemolyticum infection, Argentine hemorrhagic fever, Ascariasis, Aspergillosis, Astrovirus infection, Babesiosis, Bacterial meningitis, Bacterial pneumonia, Bacterial vaginosis, Bacteroides infection, balantidiasis, Bartonellosis, Baylisascaris infection, BK virus infection, Black Piedra, Blastocytosis, Blastomycosis, Bolivian hemorrhagic fever, Botulism, Brazilian hemorrhagic fever, brucellosis, Bubonic plague, Burkholderia infection, buruli ulcer, calicivirus invention, campylobacteriosis, Candidiasis, Capillariasis, Carrion's disease, Cat-scratch disease, cellulitis, Chagas Disease, Chancroid, Chickenpox, Chikungunya, Chlamydia, Chlamydia pneumoniae, Cholera, Chromoblastomycosis, Chytridiomycosis, Clonochiasis, Clostridium difficile colitis, Coccidioidomycosis, Colorado tick fever, rhinovirus/coronavirus infection (common cold), Cretzfeldt-Jakob disease, Crimean-congo hemorrhagic fever, Cryptococcosis, Cryptosporidiosis, Cutaneous larva migrans (CLM), cyclosporiasis, cysticercosis, cytomegalovirus infection, Dengue fever, Desmodesmus infection, Dientamoebiasis, Diphtheria, Diphylobothriasis, Dracunculiasis, Ebola, Echinococcosis, Ehrlichiosis, Enterobiasis, Enterococcus infection, Enterovirus infection, Epidemic typhus, Erthemia Infectisoum, Exanthem subitum, Fasciolasis, Fasciolopsiasis, fatal familial insomnia, filarisis, Clostridum perfingens infection, Fusobacterium infection, Gas gangrene (clostridial myonecrosis), Geotrichosis, Gerstmann-Straussler-Scheinker syndrome, Giardasis, Glanders, Gnathostomiasis, Gonorrhea, Granuloma inguinales, Group A streptococcal infection, Group B streptococcal infection, Haemophilus influenzae infection, Hand, foot, and mouth disease, hanta virus pulmonary syndrome, heartland virus disease, Helicobacter pylori infection, hemorrhagi fever with renal syndrome, Hendra virus infection, Hepatitis (all groups A, B, C, D, E), herpes simplex, histoplasmosis, hookworm infection, human bocavirus infection, human ewingii ehrlichiosis, Human granulocytic anaplasmosis, human metapneumovirus infection, human monocytic ehrlichiosis, human papilloma virus, Hymenolepiasis, Epstein-Barr infection, mononucleosis, influenza, isoporisis, Kawasaki disease, Kingell kingae infection, Kuru, Lasas fever, Legionellosis (Legionnaire's disease and Potomac Fever), Leishmaniasis, Leprosy, Leptospirosis, Listeriosis, Lyme disease, lymphatic filariasis, lymphocytic choriomeningitis, Malaria, Marburg hemorrhagic fever, measles, Middle East respiratory syndrome, Melioidosis, meningitis, Meningococcal disease, Metagonimiasis, Microsporidosis, Molluscum contagiosum, Monkeypox, Mumps, Murine typhus, Mycoplasma pneumonia, Mycoplasma genitalium infection, Mycetoma, Myiasis, Conjunctivitis, Nipah virus infection, Norovirus, Variant Creutzfeldt-Jakob disease, Nocardosis, Onchocerciasis, Opisthorchiasis, Paracoccidioidomycosis, Paragonimiasis, Pasteurellosis, Pediculosis capitis, Pediculosis corporis, Pediculosis pubis, pelvic inflammatory disease, pertussis, plague, pneumococcal infection, pneumocystis pneumonia, pneumonia, poliomyelitis, prevotella infection, primary amoebic meningoencephalitis, progressive multifocal leukoencephalopathy, Psittacosis, Qfever, rabies, relapsing fever, respiratory syncytial virus infection, rhinovirus infection, rickettsial infection, Rickettsia pox, Rift Valley Fever, Rocky Mountain Spotted Fever, Rotavirus infection, Rubella, Salmonellosis, SARS, Scabies, Scarlet fever, Schistosomiasis, Sepsis, Shigellosis, Shingles, Smallpox, Sporotrichosis, Staphylococcal infection (including MRSA), strongyloidiasis, subacute sclerosing panencephalitis, Syphilis, Taeniasis, tetanus, Trichophyton species infection, Tocariasis, Toxoplasmosis, Trachoma, Trichinosis, Trichuriasis, Tuberculosis, Tularemia, Typhoid Fever, Typhus Fever, Ureaplasma urealyticum infection, Valley fever, Venezuelan equine encephalitis, Venezuelan hemorrhagic fever, Vibrio species infection, Viral pneumonia, West Nile Fever, White Piedra, Yersinia pseudotuberculosis, Yersiniosis, Yellow fever, Zeaspora, Zika fever, Zygomycosis and combinations thereof.

Other diseases and disorders that can be treated using embodiments of the present invention include endocrine diseases (e.g. Type I and Type II diabetes, gestational diabetes, hypoglycemia. Glucagonoma, Goiter, Hyperthyroidism, hypothyroidism, thyroiditis, thyroid cancer, thyroid hormone resistance, parathyroid gland disorders, Osteoporosis, osteitis deformans, rickets, ostomalacia, hypopituitarism, pituitary tumors, etc.), skin conditions of infections and non-infection origin, eye diseases of infectious or non-infectious origin, gastrointestinal disorders of infectious or non-infectious origin, cardiovascular diseases of infectious or non-infectious origin, brain and neuron diseases of infectious or non-infectious origin, nervous system diseases of infectious or non-infectious origin, muscle diseases of infectious or non-infectious origin, bone diseases of infectious or non-infectious origin, reproductive system diseases of infectious or non-infectious origin, renal system diseases of infectious or non-infectious origin, blood diseases of infectious or non-infectious origin, lymphatic system diseases of infectious or non-infectious origin, immune system diseases of infectious or non-infectious origin, mental-illness of infectious or non-infectious origin and the like.

In some embodiments, the disease may be neuronal diseases. The systems herein may be delivered to neuronal cells or related cells for treating such diseases. Examples of diseases and cells include those described in Bergen J M et al., Nonviral Approaches for Neuronal Delivery of Nucleic Acids, Pharm Res. 2008 May; 25(5): 983-998.

Pharmaceutical Compositions

The systems, polynucleotides, vectors, and cells herein may be formulated as pharmaceutical compositions. A pharmaceutical composition may comprise an excipient, such as a pharmaceutically acceptable carrier, that is conventional in the art and that is suitable for administration to cells or to a subject.

In certain embodiments, the methods of the disclosure include administering to a subject in need thereof an effective amount (e.g., therapeutically effective amount or prophylactically effective amount) of the treatments provided herein. Such treatment may be supplemented with other known treatments, such as surgery on the subject. In certain embodiments, the surgery is strictureplasty, resection (e.g., bowel resection, colon resection), colectomy, surgery for abscesses and fistulas, proctocolectomy, restorative proctocolectomy, vaginal surgery, cataract surgery, or a combination thereof.

The term “pharmaceutically acceptable” as used throughout this specification is consistent with the art and means compatible with the other ingredients of a pharmaceutical composition and not deleterious to the recipient thereof. As used herein, “carrier” or “excipient” includes any and all solvents, diluents, buffers (such as, e.g., neutral buffered saline or phosphate buffered saline), solubilisers, colloids, dispersion media, vehicles, fillers, chelating agents (such as, e.g., EDTA or glutathione), amino acids (such as, e.g., glycine), proteins, disintegrants, binders, lubricants, wetting agents, emulsifiers, sweeteners, colorants, flavourings, aromatisers, thickeners, agents for achieving a depot effect, coatings, antifungal agents, preservatives, stabilisers, antioxidants, tonicity controlling agents, absorption delaying agents, and the like. The use of such media and agents for pharmaceutical active components is well known in the art. Such materials should be non-toxic and should not interfere with the activity of the cells or active components.

The precise nature of the carrier or excipient or other material will depend on the route of administration. For example, the composition may be in the form of a parenterally acceptable aqueous solution, which is pyrogen-free and has suitable pH, isotonicity and stability. For general principles in medicinal formulation, the reader is referred to Cell Therapy: Stem Cell Transplantation, Gene Therapy, and Cellular Immunotherapy, by G. Morstyn & W. Sheridan eds., Cambridge University Press, 1996; and Hematopoietic Stem Cell Therapy, E. D. Ball, J. Lister & P. Law, Churchill Livingstone, 2000.

The pharmaceutical compositions can be applied parenterally, rectally, orally or topically. For example, the pharmaceutical composition may be used for intravenous, intramuscular, subcutaneous, peritoneal, peridural, rectal, nasal, pulmonary, mucosal, or oral application. In a preferred embodiment, the pharmaceutical composition according to the invention is intended to be used as an infuse. The skilled person will understand that compositions which are to be administered orally or topically will usually not comprise cells, although it may be envisioned for oral compositions to also comprise cells, for example when gastro-intestinal tract indications are treated. Each of the cells or active components (e.g., modulants, immunomodulants, antigens) as discussed herein may be administered by the same route or may be administered by a different route. By means of example, and without limitation, cells may be administered parenterally and other active components may be administered orally. In some cases, the composition or pharmaceutical composition may by intramuscular injection. In some cases, the composition or pharmaceutical composition may by intravascular injection.

Liquid pharmaceutical compositions may generally include a liquid carrier such as water or a pharmaceutically acceptable aqueous solution. For example, physiological saline solution, tissue or cell culture media, dextrose or other saccharide solution or glycols such as ethylene glycol, propylene glycol or polyethylene glycol may be included.

The composition may include one or more cell protective molecules, cell regenerative molecules, growth factors, anti-apoptotic factors or factors that regulate gene expression in the cells. Such substances may render the cells independent of their environment.

Such pharmaceutical compositions may contain further components ensuring the viability of the cells therein. For example, the compositions may comprise a suitable buffer system (e.g., phosphate or carbonate buffer system) to achieve desirable pH, more usually near neutral pH, and may comprise sufficient salt to ensure isoosmotic conditions for the cells to prevent osmotic stress. For example, suitable solution for these purposes may be phosphate-buffered saline (PBS), sodium chloride solution, Ringer's Injection or Lactated Ringer's Injection, as known in the art. Further, the composition may comprise a carrier protein, e.g., albumin (e.g., bovine or human albumin), which may increase the viability of the cells.

Further suitably pharmaceutically acceptable carriers or additives are well known to those skilled in the art and for instance may be selected from proteins such as collagen or gelatine, carbohydrates such as starch, polysaccharides, sugars (dextrose, glucose and sucrose), cellulose derivatives like sodium or calcium carboxymethylcellulose, hydroxypropyl cellulose or hydroxypropylmethyl cellulose, pregelatinized starches, pectin agar, carrageenan, clays, hydrophilic gums (acacia gum, guar gum, arabic gum and xanthan gum), alginic acid, alginates, hyaluronic acid, polyglycolic and polylactic acid, dextran, pectins, synthetic polymers such as water-soluble acrylic polymer or polyvinylpyrrolidone, proteoglycans, calcium phosphate and the like.

If desired, cell preparation can be administered on a support, scaffold, matrix or material to provide improved tissue regeneration. For example, the material can be a granular ceramic, or a biopolymer such as gelatine, collagen, or fibrinogen. Porous matrices can be synthesized according to standard techniques (e.g., Mikos et al., Biomaterials 14: 323, 1993; Mikos et al., Polymer 35:1068, 1994; Cook et al., J. Biomed. Mater. Res. 35:513, 1997). Such support, scaffold, matrix or material may be biodegradable or non-biodegradable. Hence, the cells may be transferred to and/or cultured on suitable substrate, such as porous or non-porous substrate, to provide for implants.

The pharmaceutical compositions may comprise one or more pharmaceutically acceptable salts. The term “pharmaceutically acceptable salts” refers to salts prepared from pharmaceutically acceptable non-toxic bases or acids including inorganic or organic bases and inorganic or organic acids. Salts derived from inorganic bases include aluminum, ammonium, calcium, copper, ferric, ferrous, lithium, magnesium, manganic salts, manganous, potassium, sodium, zinc, and the like. Particularly preferred are the ammonium, calcium, magnesium, potassium, and sodium salts. Salts derived from pharmaceutically acceptable organic non-toxic bases include salts of primary, secondary, and tertiary amines, substituted amines including naturally occurring substituted amines, cyclic amines, and basic ion exchange resins, such as arginine, betaine, caffeine, choline, N,N′-dibenzylethylenediamine, diethylamine, 2-diethylaminoethanol, 2-dimethylaminoethanol, ethanolamine, ethylenediamine, N-ethyl-morpholine, N-ethylpiperidine, glucamine, glucosamine, histidine, hydrabamine, isopropylamine, lysine, methylglucamine, morpholine, piperazine, piperidine, polyamine resins, procaine, purines, theobromine, triethylamine, trimethylamine, tripropylamine, tromethamine, and the like. The term “pharmaceutically acceptable salt” further includes all acceptable salts such as acetate, lactobionate, benzenesulfonate, laurate, benzoate, malate, bicarbonate, maleate, bisulfate, mandelate, bitartrate, mesylate, borate, methylbromide, bromide, methylnitrate, calcium edetate, methyl sulfate, camsylate, mucate, carbonate, napsylate, chloride, nitrate, clavulanate, N-methylglucamine, citrate, ammonium salt, dihydrochloride, oleate, edetate, oxalate, edisylate, pamoate (embonate), estolate, palmitate, esylate, pantothenate, fumarate, phosphate/diphosphate, gluceptate, polygalacturonate, gluconate, salicylate, glutamate, stearate, glycollylarsanilate, sulfate, hexylresorcinate, subacetate, hydrabamine, succinate, hydrobromide, tannate, hydrochloride, tartrate, hydroxynaphthoate, teoclate, iodide, tosylate, isothionate, triethiodide, lactate, panoate, valerate, and the like which can be used as a dosage form for modifying the solubility or hydrolysis characteristics or can be used in sustained release or pro-drug formulations. It will be understood that, as used herein, references to specific agents (e.g., neuromedin U receptor agonists or antagonists), also include the pharmaceutically acceptable salts thereof.

Methods of administrating the pharmacological compositions, including agents, cells, agonists, antagonists, antibodies or fragments thereof, to an individual include, but are not limited to, intradermal, intrathecal, intramuscular, intraperitoneal, intravenous, subcutaneous, intranasal, epidural, by inhalation, and oral routes. The compositions can be administered by any convenient route, for example by infusion or bolus injection, by absorption through epithelial or mucocutaneous linings (for example, oral mucosa, rectal and intestinal mucosa, and the like), ocular, and the like and can be administered together with other biologically-active agents. Administration can be systemic or local. In addition, it may be advantageous to administer the composition into the central nervous system by any suitable route, including intraventricular and intrathecal injection. Pulmonary administration may also be employed by use of an inhaler or nebulizer, and formulation with an aerosolizing agent. It may also be desirable to administer the agent locally to the area in need of treatment; this may be achieved by, for example, and not by way of limitation, local infusion during surgery, topical application, by injection, by means of a catheter, by means of a suppository, or by means of an implant.

Therapy or treatment according to the invention may be performed alone or in conjunction with another therapy, and may be provided at home, the doctor's office, a clinic, a hospital's outpatient department, or a hospital. Treatment generally begins at a hospital so that the doctor can observe the therapy's effects closely and make any adjustments that are needed. The duration of the therapy depends on the age and condition of the patient, the stage of the cancer, and how the patient responds to the treatment. Additionally, a person having a greater risk of developing an inflammatory response (e.g., a person who is genetically predisposed or predisposed to allergies or a person having a disease characterized by episodes of inflammation) may receive prophylactic treatment to inhibit or delay symptoms of the disease.

Vaccines

The systems, vesicles, plasmids, and cells may be used as vaccines. In some examples, the vesicles may comprise molecules capable of eliciting T cell and B cell immune responses. In some examples, the vesicles may not replicate once delivered in a target cell.

Bioproduction

The engineered system molecules, vectors, engineered cells, and/or engineered systems can be used for bioproduction of various molecules including engineered systems. In some embodiments, the engineered cells can be used in an in vivo (e.g. a modified animal or plant), in vitro, or ex vivo cell system to produce engineered systems. As previously mentioned, the engineered system molecules, vectors, engineered cells, and/or engineered systems can be used to make a modified animal that can produce engineered systems. In some embodiments, the animal can be engineered to produce engineered systems in one or more bodily fluids or product (e.g. an egg as in the case of modified avians). As previously mentioned, the engineered system molecules, vectors, engineered cells, and/or engineered systems can be used to make a modified plant that can produce engineered systems. In some embodiments, the plant can be engineered to produce engineered systems in one or more parts of the plant. In some embodiments, production can be in a harvestable portion of the plant.

In some embodiments, the objective can be to make and/or harvest a particular molecule from a producer cell. This can be useful for generating and harvesting molecules that are otherwise difficult to generate and/or harvest outside of a cell or via other processes and techniques. In some embodiments, the molecule is one that is naturally produced by the producer cell (which can be an engineered cell). In some embodiments, the producer cell can be engineered to increase production of one or more endogenous molecules. In some embodiments, the producer cell is engineered to produce an exogenous molecule. In some embodiments, endogenous and/or exogenous molecules produced can be packaged into engineered systems, which can be subsequently harvested from the producer cell. The molecules can then be further harvested from the engineered systems. Methods of purifying engineered systems are described elsewhere herein and will be appreciated by those of ordinary skill in the art. Similarly, methods of harvesting the molecules from the engineered systems will be appreciated by those of ordinary skill in the art.

In some cases, endogenous producer cell molecules or exogenous molecules of interest are normally secreted by the producer cell. Packaging these into engineered systems prior to secretion followed by subsequent purification of the engineered systems carrying the packaged endogenous molecule can be an alternative to obtaining conditioned media to obtain these normally secreted endogenous molecules.

The systems (e.g., the systems comprising ATPase(s) and adenosine deaminase(s) described herein) may be used to modify polynucleotides in vitro, in cells, and in vivo. Examples of applications, e.g., in plants, fungi, animals, therapeutic and diagnostic applications, include those described in International Patent Publication Nos. WO 2019/071048 (e.g. paragraphs [0528]-[0837]), WO 2019/084063 (e.g., paragraphs [0676]-[0892]), which are incorporated by reference herein in their entireties.

Delivery

The one or more components of the systems herein may be introduced to cells for expression. Examples of methods of introducing the components into cell include lipofection, nucleofection, microinjection, biolistics, virosomes, liposomes, immunoliposomes, polycation or lipid:nucleic acid conjugates, naked DNA, artificial virions, and agent-enhanced uptake of DNA. Lipofection is described in e.g., U.S. Pat. Nos. 5,049,386, 4,946,787; and 4,897,355) and lipofection reagents are sold commercially (e.g., Transfectam™ and Lipofectin™). Cationic and neutral lipids that are suitable for efficient receptor-recognition lipofection of polynucleotides include those of Felgner, WO 91/17424; WO 91/16024. Delivery can be to cells (e.g. in vitro or ex vivo administration) or target tissues (e.g. in vivo administration). Physical methods of introducing polynucleotides may also be used. Examples of such methods include injection of a solution containing the polynucleotides, bombardment by particles covered by the polynucleotides, soaking a cell, tissue sample or organism in a solution of the polynucleotides, or electroporation of cell membranes in the presence of the polynucleotides. Examples of delivery methods and vehicles include viruses, nanoparticles, exosomes, nanoclews, liposomes, lipids (e.g., LNPs), supercharged proteins, cell permeabilizing peptides, and implantable devices. The nucleic acids, proteins and other molecules, as well as cells described herein may be delivered to cells, tissues, organs, or subjects using methods described in paragraphs [00117] to [00278] of Feng Zhang et al., (WO2016106236A1), which is incorporated by reference herein in its entirety.

EXAMPLES Example 1—Identification of Bacterial Defense Systems

Bacterial defense systems were identified using method outlined in FIG. 5, FIGS. 6A-6B show the examples of the identified bacterial defense systems, their domain structures, and their effects on phage growth. Selected identified bacterial defense systems and mutated forms were tested for their effects on phage growth (FIG. 7).

Example 2—Diverse Enzymatic Functions Mediate Antiviral Immunity in Prokaryotes

Bacteria and archaea possess multiple defense systems to protect against attacking viruses and other foreign genetic elements through a variety of mechanisms, including sequence-specific endonucleases and toxin-antitoxin systems. Here, using a systematic approach to identify defense-associated genes in bacterial and archaeal genomes, Applicants identified a diverse set of putative defense gene cassettes that remain functionally uncharacterized. Applicants heterologously reconstituted 50 of these cassettes in Escherichia coli, demonstrating that 29 of them mediated defense against specific bacteriophages. These new defense systems include retrons; a widespread family of reverse transcriptases with unusual domain associations; and STAND ATPases, which are homologs of essential eukaryotic apoptosis effectors but whose role in prokaryotes has remained enigmatic. In addition, Applicants demonstrated that a two-gene system containing a divergent adenosine deaminase mediates RNA editing upon exposure to phage, representing a novel mechanism of defense. The discovery of these novel defense systems highlighted the immense untapped diversity of molecular functions employed by microbes in their wars against viruses and provides clues to the evolutionary origins of microbial immune mechanisms.

Bacterial and archaeal viruses are the most abundant, and possibly the most diverse, biological entities on earth (Cobián Güemes et al., 2016; Suttle, 2013). To defend against the incessant and varied virus attacks, prokaryotes have evolved multiple, diverse antivirus defense systems. These include the adaptive immune systems CRISPR-Cas, which provide immunity by memorizing past infection events (Hille et al., 2018), and a variety of innate immune systems, such as restriction-modification (RM)-based systems, including DNA phosphorothioation, DPD, DISARM (Ofir et al., 2018), and BREX (Goldfarb et al., 2015; Gordeeva et al., 2019), which target specific, pre-defined sequences within the phage DNA; abortive infection (Abi) systems, which induce altruistic cell dormancy or death upon phage infection; and additional systems with mechanisms that have not yet been investigated (Doron et al. 2018). Antivirus defense systems range in complexity from a single small protein (e.g., certain types of Abi systems) to large cassettes of eight or more proteins acting in concert (e.g., type I and type III CRISPR-Cas systems).

The arms race between microbes and viruses is a powerful evolutionary force that sculpts the host genomes. A distinctive outcome of this process is the modularity of defense systems, whereby components of one system are often recruited by other systems. For example, restriction-modification enzymes have been found in association with a number of additional proteins, leading to expanded defense systems, such as DISARM (Ofir et al., 2018). Toxin-antitoxin systems are particularly prone to swapping, resulting in nearly every possible combination of toxin and antitoxin (Makarova et al., 2013). Another key feature of the evolution of microbial anti-parasite defense is the persistent exchange of components between defense systems and mobile genetic elements (Koonin et al., 2019). In particular, nucleases encoded by both transposons and toxin-antitoxin modules apparently have been recruited for roles in CRISPR-Cas systems, and conversely, components of CRISPR-Cas systems have been recruited by mobile genetic elements for antidefense and other functions, such as RNA-guided transpositions (Faure et al., 2019; Klompe et al., 2019; Strecker et al., 2019). The extensive modularity and baroque evolutionary patterns of defense systems yield extraordinary diversity and highlight the potential for discovery of additional systems with novel mechanisms.

Domain-Independent Identification of Uncharacterized Defense Systems

A distinctive property of anti-phage defense genes is their tendency to cluster together within defense ‘islands’ in bacterial and archaeal genomes (Makarova et al., 2013; Makarova et al., 2011). As a consequence, an uncharacterized gene whose homologs consistently occur next to, for instance, restriction-modification genes has an increased probability of being a new defense gene (Shmakov et al., 2019; Shmakov et al., 2018). A recent analysis (Doron et al., 2018) identified and validated 10 new defense systems, based on the requirement that each (putative) system contain at least one annotated protein domain that is enriched within defense islands.

To test whether additional unknown systems existed which either lack annotated domains, or only contain domains that are typically non-defense but have been co-opted in specific instances to perform defensive functions, Applicants developed an expanded computational approach in which putative novel systems were identified independent of domain annotations (FIG. 8A). Applicants analyzed all 174,080 bacterial and archaeal genomes available in Genbank as of November 2018, encoding a total of 620 million proteins. To identify candidate novel defense systems, Applicants first compiled a list of all proteins within 10 kb or 10 open reading frames of known defense systems (see Methods). This list (n=6×10⁵ after redundancy reduction) was a mix of novel defense genes with many non-defense genes. For each entry in the list (‘seed’), Applicants identified all homologs within the original set of genomes with an alignment coverage of at least 70% and an E-value of 10⁻⁵ or lower. Each detected homolog was then assessed for its proximity to a known defense system. For each seed, if the fraction of homologs within 5 kb of 5 genes of a known defense system (‘defense association score’) (Shmakov et al., 2019) was sufficiency high, the seed was retained for further analysis (see Methods). For each retained seed, the gene neighborhoods of 30 representative homologs were examined to identify conserved operons that contain the seed gene and putatively constitute a minimal intact defense system.

To determine an appropriate cutoff for the defense association score, Applicants performed the same analysis for a selected set of seeds from known systems. From this analysis, a value of 0.15 was chosen because >90% of the known seeds had a score higher than this value (FIG. 8B). Applying this threshold to the novel seeds resulted in a final list of 1.5×10⁴ defense gene candidates (10.5% of all seeds; minimum 50 identified homologs) (FIG. 8C). This analysis suggested that uncharacterized defense systems substantially outnumbered the currently known ones. Furthermore, the defense-enriched seeds included a diversity of identified enzymatic activities, including those that had not been previously implicated in antivirus immunity.

Candidate Defense Systems Exhibited Antivirus Activity in a Heterologous System

Applicants selected 50 candidate defense systems to test experimentally by heterologous reconstitution in E. coli. Candidate systems were prioritized for testing based on the following criteria: presence of identified molecular functions not previously implicated in defense; broad phylogenetic distribution; and for multi-gene systems, conservation of component genes. For each system, 1-4 homologs were selected and cloned from the source organism into the low-copy vector pACYC and transformed into E. coli (FIG. 9A). BREX type I (Goldfarb et al., 2015; Gordeeva et al., 2019), Druantia type I (Doron et al., 2018), and the abortive infection reverse transcriptase RT-Abi-P2 (Odegrip et al., 2006) were included as positive controls. Each system was then challenged with a diverse panel of coliphages with dsDNA, ssDNA, or ssRNA genomes, and phage sensitivity was compared to that observed with an empty vector control.

Applicants observed anti-phage activity in at least one homolog for 29 out of the 50 tested candidates (58%). The most active representative in each of these 29 systems was further tested with an expanded panel of phages in two E. coli strains (FIG. 9B). All 29 systems were active against at least one dsDNA phage; three were active against ssDNA phages (M13 or φX174); and none were active against ssRNA phages (MS2 and Q(3). Phage specificity was typically narrow and varied widely across systems. In addition, the abundance of these systems within sequenced genomes spans two orders of magnitude, ranging from ˜0.1% to ˜10% of the genomes (FIG. 9B and FIG. 14).

RADAR Contained a Divergent Adenosine Deaminase that Edits RNA in Response to Phage Infection

One of the validated systems was a two-gene cassette consisting of a KAP-family ATPase (˜900 residues) and a divergent adenosine deaminase (˜900 residues); this system was active against dsDNA phages T2, T3, T4, and T5. Applicants focused on this system for further investigation because deaminase activity had not previously been implicated in anti-phage defense. These systems appear in diverse defense contexts, adjacent to CRISPR, BREX, RM, Zorya, and Wadjet, and form three distinct subtypes (FIG. 10A). In some cases, this system had the ATPase and deaminase only, but some variants also included a small membrane protein, either a SLATT domain (Burroughs et al., 2015) or the type VI-B CRISPR ancillary gene csx27 (Makarova et al., 2019). Mutations in either the ATPase Walker B motif or in the putative Zn2+-binding H×H motif of the deaminase abolished defense activity (FIG. 10B).

Applicants further tested whether it acted on nucleic acids. Indeed, whole-transcriptome deep sequencing showed an enrichment of A to G substitutions in sequencing reads at specific sites in the presence of phage, whereas C, G, or U bases were not affected (FIG. 10C), consistent with base editing of adenosine to inosine. Editing occurred when both the defense system and the phage were present. In this experiment, expression of the defense system without the phage resulted in a near-baseline level of editing, and no editing was detected in the absence of the system. The editing sites were distributed throughout the E. coli transcriptome as well as the phage transcriptome (FIG. 10D). RNA secondary structure analysis indicated a characteristic stem-loop structure at strong editing sites; specific adenosines in loops were edited with up to ˜90% frequency, whereas adenosines within the stem were not edited within the limit of detection.

Based on these results, Applicants named this system phage restriction by an adenosine deaminase acting on RNA (RADAR). Growth kinetics at varying phage multiplicity of infection (MOI) revealed a threshold MOI above which RADAR-expressing cells had a lower OD600 compared to the empty vector control, suggestive of RADAR-mediated growth arrest (FIG. 10E). Collectively, these results are consistent with an abortive infection mechanism that is activated by phage.

A Widespread Family of RT-Containing Defense Systems

The defense systems identified by the pipeline herein included a diverse family of reverse transcriptases (RTs). Although RTs are typical components of diverse mobile retroelements as well as retro-transcribing viruses, some RTs encoded in bacterial genomes show no evidence of mobility (Zimmerly and Wu, 2015). Two of these RTs have been previously shown to play a role in anti-phage defense, namely RT-Cas1, which mediated acquisition of CRISPR spacers from RNA via reverse transcription (Silas et al., 2016), and RT-Abi, a set of abortive infection genes that catalyzed untemplated dNTP polymerization in vitro (Emond et al., 1997; Odegrip et al., 2006; Wang et al., 2011).

Recent computational analyses have revealed a vast diversity of bacterial RTs, including 16 ‘unknown groups’ (UGs) that either remained functionally uncharacterized, or were identified to perform metabolic roles (Kojima and Kanehisa, 2008; Simon and Zimmerly, 2008; Toro and Nisa-Martinez, 2014; Zimmerly and Wu, 2015). Many of these RTs were independently identified by the computational pipeline herein, suggesting that they might represent a widespread family of uncharacterized defense genes. Applicants found that at least 7 of these RT groups (UG1, UG2, UG3, UG8, UG9, UG15, and UG16) provided robust protection against dsDNA phages (FIG. 9B), and mutations in the (Y/F)×DD (SEQ ID NOS: 1-2) active site of the RTs abolished activity (FIG. 11A-11C). Many of these RTs contained an uncharacterized C-terminal domain, and some were fused to or associated with required enzymatic domains that had not been previously implicated in anti-phage defense, including a nitrilase-family C—N hydrolase and a family A DNA polymerase (FIGS. 11A, B and FIG. 15).

Retrons Mediated Anti-Phage Defense

Applicants also identified defense functions for a group of retrons, a distinct class of RTs that produce extrachromosomal satellite DNA (multi-copy single-stranded DNA, msDNA) by reverse transcribing a segment of the 5′ region of its own mRNA (Lampson et al., 2005). Retron cDNA is covalently linked to an internal guanosine of the RNA via a 2′-5′ phosphodiester bond. Retrons had been harnessed for bacterial genome engineering (Farzadfard and Lu, 2014), but their native biological function had remained unknown. Applicants found that the original E. coli retrons Ec67 (Lampson et al., 1989) and Ec86 (Lim and Maas, 1989), as well as the Ec78 retron (Lima and Lim, 1997) and a novel TIR domain-associated retron, mediated defense against dsDNA phages. In addition, the absence of additional domains typical for group II introns in the UG2 group, together with the presence of a large upstream region that formed a identified highly structured RNA, suggested that UG2 was yet another retron-like element. Mutations in the (Y/F)×DD (SEQ ID NOS: 1-2) active site of the RT, as well as a G to A substitution at the branching guanosine, abolished activity, indicating that the defense function depends on msDNA synthesis. Notably, these retrons were associated with other domains, including TOPRIM (topoisomerase-primase) (Aravind et al., 1998) and TIR (Tol/interleukin 1 receptor) domains, that were required for activity (FIG. 11C). The TOPRIM domain can possess nuclease activity (Aravind et al., 1998) whereas the TIR domain can be a NAD+ hydrolase that is involved in programmed cell death pathways in animals and plants (Horsefield et al., 2019).

Additional Molecular Functions

Applicants identified other defense systems with diverse molecular functions, including a three-gene cassette containing a von Willebrand factor A (vWA) domain protein, a PP2C-like serine/threonine protein phosphatase, and a serine/threonine protein kinase provided strong protection against T7-like phages (T3, T7, and φV-1). In this experiment, all three genes were required for activity (FIG. 12). This system, termed the TerY-phosphorylation triad (TerY-P), was previously analyzed computationally in the context of Ter-dependent stress response systems (Anantharaman et al., 2012) and can operate as a phosphorylation switch that couples the activities of the kinase and the phosphatase.

Four systems contained an N-terminal SIR2 (sirtuin) deacetylase domain (FIG. 12), which was present in the Thoeris system (Doron et al., 2018) and had also been detected in the same neighborhoods with prokaryotic Argonaute proteins (Makarova et al., 2009), but had not been functionally characterized in prokaryotes. Additionally, a large 1300 residue P-loop ATPase containing two transmembrane helices inserted into the ATPase domain, similarly to the KAP family ATPases (Aravind et al., 2004), protected against both dsDNA and ssDNA phages.

Applicants also demonstrated defense function for several identified NTPases of the STAND (signal transduction ATPases with numerous associated domains) superfamily (FIG. 12). This expansive superfamily consists of multidomain proteins that include eukaryotic ATPases and GTPases involved in programmed cell death and various forms of signal transduction (Danot et al., 2009; Leipe et al., 2004). Typically, STAND NTPases contain a C-terminal helical sensor that, upon target recognition, induces oligomerization via ATP or GTP hydrolysis, leading to activation of the N-terminal effector domain. The functions of prokaryotic STAND NTPases remain poorly characterized. Those few for which experimental data are available contain a helix-turn-helix domain and have been shown to regulate transcription (Danot et al., 2009). Several identified STAND NTPases were active against dsDNA phages (FIG. 9B); these proteins contained different putative effector domains, including DUF4297 (a putative PD(D/E)×K-family nuclease that is also present in the Lamassu defense system (Doron et al., 2018)), an Mrr-like nuclease, SIR2, a trypsin-like serine protease, and an uncharacterized helical domain.

The findings described here substantially expanded the space of protein domains, molecular functions, and their interactions that are employed by bacteria in anti-phage defense. Some of these functions, in particular RNA editing, had not been previously implicated in defense mechanisms. The high success rate of the identification of defense systems based solely on the evolutionary conservation of the proximity to previously identified defense genes validated the defense island concept (Makarova et al., 2013; Makarova et al., 2011) and demonstrated its growing utility at the time of rapid expansion of sequence databases.

Despite similarities in domain architectures among some of the identified defense systems, their phage specificities differed substantially. The molecular basis of such narrow specificity remained to be uncovered, but these observations emphasized the importance of multiple defense systems for the survival of prokaryotes in the incessant arms race with viruses. Furthermore, these results were compatible with the concept of distributed microbial immunity, according to which defense systems encoded in different genomes collectively protect microbial communities from the diverse viromes they confront. The remarkable variability of the discovered defense systems implied that their sensor and effector components were involved in diverse molecular interactions. Several of the identified defense systems incorporated molecular functions from typically non-defense sources, highlighting the versatility of activities that were recruited for antiviral defense. The notable cases in point include the RNA deaminase activity of the RADAR system, as well as reverse transcriptases of different families, in particular retrons. The demonstration of the defense functions for multiple RTs that were generally associated with mobile genetic elements was consistent with the ‘guns for hire’ paradigm whereby enzymes are shuttled between MGE and defense systems during microbial evolution (Koonin et al., 2019).

The discovered defense systems can be characterized mechanistically, e.g., by mutating the catalytic residues. Applicants showed here that the respective enzymatic components were functionally important. Many of these systems can function via an abortive infection mechanism, e.g., by causing growth arrest or programmed cell death in the infected hosts as demonstrated here for the RADAR system. In particular, this can be the mode of action of STAND NTPases, homologs of essential eukaryotic programmed cell death effectors, whose role in prokaryotes has long remained enigmatic (Koonin and Aravind, 2002; Leipe et al., 2004). In addition, the membrane-associated ATPase can function analogously to the STAND NTPases to which they are distantly related (Aravind et al., 2004).

Many of the identified defense systems contained enzymatic activities as well as identified sensor components that had not been previously detected in defense contexts, suggesting the possibility of reengineering for novel biotechnology applications. Further experimental characterization of these systems, as well as others Applicants identified computationally, can be expected to greatly expand the repertoire of such functions.

Methods

Detection of known antivirus defense systems. All bacterial and archaeal genomes (n=174,080) were downloaded from Genbank (ftp://ftp.ncbi.nih.gov/genomes/genbank/) in November 2018. For genomes where gene annotations were incomplete or missing, genes were identified using Prodigal (Hyatt et al., 2010). Known defense-related protein domains were annotated using RPSBLAST version 2.8.1 from a set of position-specific scoring matrices curated from the NCBI Conserved Domain Database (CDD) (Doron et al., 2018; Makarova et al., 2011; Marchler-Bauer et al., 2017; Punta et al., 2012). To reduce the false positive rate, a multi-gene system containing a ubiquitous protein domain was required to include two or more of its component genes in close proximity. For example, the type I restriction-modification endonuclease hsdR was called as a defense gene only if the corresponding methylase (hsdM) or specificity protein (hsdS) was also encoded in the vicinity. Toxin-antitoxin systems were excluded from the set of known defense systems due to their overall low enrichment within defense islands.

Candidate novel defense genes. All translated protein-coding sequences within either 10 kb or 10 genes of known defense systems (whichever was greater), including the components of the known defense systems themselves, were compiled into a preliminary list (n=8.7×10⁶). Highly similar sequences (at least 98% sequence identity and coverage) were discarded using the linclust option in MMseqs2 (Steinegger and Riding, 2017, 2018) with parameters—min-seq-id 0.98-c 0.98, resulting in a reduced list of 2.5×10⁶ sequences. A second round of redundancy elimination was then applied to this reduced list, using the default cluster option in MMSeqs2, yielding a final list of 6.0×10⁵ candidate sequences.

Scoring candidate genes for defense enrichment. For each of the 6.0×10⁵ candidate genes, a ‘defense enrichment score’ was computed as (number of homologs in proximity to one or more known defense systems)/(total number of homologs). A gene was considered to be located in proximity to a known defense system if it occurred no more than 5 kb or 5 genes away from the locus encoding that system. Candidate sequences with a defense enrichment score of 0.15 or higher were retained for subsequent analysis, with the exception of mobilome components (such as transposons), toxin-antitoxin, or abortive infection components, which were discarded. This cut-off was chosen because more than 90% of the known defense genes scored higher than this value. To identify homologs of the candidate proteins, all 6.2×10⁸ proteins in the original set of Genbank genomes were tabulated, and highly similar proteins (at least 98% sequence identity and coverage) were removed using linclust, resulting in a reduced list of 1.3×10⁸ proteins. Each seed sequence was then searched against this non-redundant protein sequence database using MiMseqs2. To qualify as homologs, matches were required to have a minimum coverage of 70% and a maximum E value of 10⁻⁵ (parameters—coy-mode 0-c 0.7-e 0.00001).

From genes to defense systems. For each defense-enriched candidate protein, the gene neighborhoods of 30 homologs in proximity to known defense genes were randomly selected and examined on a case by case basis, in order to determine whether the candidate was a stand-alone defense gene system or a member of a conserved multi-gene cassette. Protein domains were identified using HHpred, and the resulting identification were used to infer the involvement of the respective proteins in the activity of the respective identified defense system (Zimmermann et al., 2018).

Abundance estimation of defense systems. To estimate the abundance of each validated defense system within the microbial pangenome, Applicants downloaded n=205214 genomes available in Genbank as of August 2019. For each defense system, initial protein sequence seeds of the signature genes were taken from experimentally validated loci. Initial seeds were aligned and converted into HMM profiles. Applicants then used a constrained 2 iteration HMM profile search to generate highly specific HMM profiles and retrieve related systems as follows. Each ORF of size 150aa or greater with one or more hits was searched against all HMM profiles using HMMER3.1 and assigned to the profile that had the highest scoring match. For each system, ORFs with profile hits with less than 500 bp of intergenic distance on the same strand were grouped into candidate loci. For multi-protein systems, a putative locus was considered a hit if every signature gene profile for the system had a match in the locus with a bitscore of at least 25. For single gene systems, a locus was considered a hit if the protein had a match to the system's single signature gene profile with a bit score of at least 50 and an alignment coverage of at least 70%. Signature proteins from the identified systems were separately clustered at 50% identity using MMseqs2 and subsequently aligned using MAFFT. The alignments were used to create a new set of signature gene profiles as input to the next iteration. For BREX and Type I RM, Applicants used preexisting pfam profiles for the signature genes in place of iterative HMM profile searching. The final abundance was calculated as the number of system hits divided by the number of genomes (n).

Bacteria and phage strains. Phages T2, T3, T4, T5, T7, P1, λ, φV-1, M13, φX174, MS2, and Qβ, as well as host E. coli strains K-12 (ATCC25404) and C (ATCC13706), were obtained from the American Type Culture Collection (ATCC). The genome of phage φV-1, originally isolated from a measles vaccine (Milstien et al., 1977; Petricciani et al., 1973), was sequenced and found to be 92% similar to enterobacteria phage 285P, a T7-like phage (Xu et al., 2014).

Cloning. To facilitate experimental validation using coliphages, the source organism of each candidate defense system was chosen to be as similar as possible to E. coli, in particular, from other strains of E. coli whenever possible. Candidate defense systems were cloned into a variant of the low-copy plasmid pACYC184 containing 7 synonymous mutations in the chloramphenicol resistance gene to remove restriction sites. When possible, genomic DNA from source organisms was obtained from ATCC, NCTC, or DSMZ, and the genes of interest were amplified with Q5 (New England Biolabs) or Phusion Flash (Thermo Scientific) polymerase, using primers with 5′ ends homologous to the ends of the plasmid backbone. Plasmids were assembled using the NEBuilder HiFi DNA Assembly mix (New England Biolabs). When the source organism was not readily available from public culture collections, genes were chemically synthesized (GenScript) with optional human codon optimization of the open reading frames. When possible, the native promoter was retained. For some source organisms outside of Enterobacteriaceae, or when the candidate system was operonized with other upstream genes, the system was placed under a bla or lac promoter.

Sequence verification of plasmids. The full sequences of all plasmids were verified by high-throughput sequencing. To prepare sequencing libraries, 25-50 ng of each plasmid was mixed with purified Tn5 transposome loaded with Illumina adapters and incubated at 55° C. for 10 min in the presence of 5 mM MgCl2 and 10 mM TAPS buffer (Picelli et al., 2014). The quantity of Tn5 was titrated to generate an average fragment size of ˜100-400 bp. Tagmentation reactions were subsequently treated with 0.5 volumes of 0.1% sodium dodecyl sulfate for 5 min at room temperature and amplified with KAPA HiFi HotStart polymerase using primers containing 8 nt i7 and i5 index barcodes. Barcoded amplicons were sequenced on a MiSeq (Illumina) with at least 150 cycles for the forward read. Reads were aligned to the reference plasmid sequence by the Geneious read mapper, and error-free plasmids were retained for subsequent experiments.

Competent cell production. E. coli strains K-12 and C were cultured in ZymoBroth with 25 μg/mL chloramphenicol and made competent using Mix & Go buffers (Zymo) according to the manufacturer's recommended protocol.

Phage plaque assays. E. coli host strains were grown to saturation at 37° C. in Luria Broth (LB). To 10 mL top agar (10 g/L tryptone, 5 g/L yeast extract, 10 g/L NaCl, 7 g/L agar) was added chloramphenicol (final concentration 25 μg/mL) and 526 μL E. coli culture, and the mixture was poured on 10 cm LB-agar plates containing 25 μg/mL chloramphenicol. For phages T2, T4, T5, P1, λ, M13, MS2, and Qβ, dilutions of phage in phosphate buffered saline were spotted on the plates, and plaque counts were recorded after overnight incubation at 37° C. If individual plaques were too small to be counted, the most concentrated dilution at which no plaque formation was visible was recorded as having a single plaque. For phages T3, T7, φV-1, and φX174, a total of 3 μL of phage containing 5×106 virions was spotted, and the area of the plaque was measured after incubation at 37° C. for 68 hr.

Phage cultivation. Phages T2, T3, T4, T7, φV-1, M13, φX174, MS2, and Qβ were propagated in liquid culture. The host E. coli strain for each phage was grown to an OD600 of 0.2-0.4 at 37° C. in LB and infected with a slab of top agar containing phage plaque from a previous lysis. Cultures were grown overnight at 37° C. with 250 rpm agitation. Phages T5, P1, and λ, were propagated by the double agar overlay method; after overnight incubation at 37° C., plaques were scraped in LB. For both liquid culture and double agar overlay, phage samples were centrifuged to pellet cellular debris, and the supernatant was filtered through with a 0.22 μm sterile filter.

Whole transcriptome sequencing. E. coli ATCC25404, containing either an empty vector or the candidate defense system, was grown to log phase in LB and diluted to an OD600 of 0.2. The culture was then split into two tubes, one of which was infected with phage T2 at an estimated MOI of 2. Both subcultures were incubated at 37° C. for 1 hr with 250 rpm agitation. RNA was extracted using TRIzol Reagent (Thermo Fisher Scientific) and treated with DNAse I, followed by a RiboMinus ribosomal RNA depletion kit (Thermo). Sequencing libraries were prepared using NEB Ultra II directional RNAseq library prep kit (New England Biolabs) and paired-end sequenced (2×75 cycles) with a NextSeq (Illumina). Adapter sequences were trimmed from sequencing reads using CutAdapt (with parameters—trim-n-q 20-m 20-a AGATCGGAAGAGC-A AGATCGGAAGAGC (SEQ ID NO: 472)), and trimmed reads were aligned to the E. coli MG1655 reference genome using the Geneious read mapper.

RNA secondary structure. Minimum free energy RNA secondary structures were generated using the Turner (2004) energy parameters at 37° C. (Turner and Mathews, 2010).

E. coli growth kinetics. Cells were grown to log phase in LB and diluted to an OD600 of 0.2. Cultures were infected with phage T2 at varying MOI at grown at 37° C., and the OD600 was measured every 2 min for a total duration of 4 hr on a Synergy Neo2 plate reader (BioTek).

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TABLE 5 Source organism strains of validated defense systems. # System Genes Organism Strain Promoter BREX type I 6 E. coli DSM5212 Native Druantia type I 5 E. coli DSM5212 Native RT-Abi-P2 1 E. coli ECOR30 Native  1 RT_retron-TIR 1 Shigella NCTC2966 Native dysenteriae  2 RT_retron-TOPRIM (Ec67) 1 E. coli NCTC8623 Native  3 Nuc_deoxy + RT_retron (Ec86) 2 E. coli BL21 Native  4 RT_UG2 1 Salmonella NCTC8273 Native enterica  5 RT_UG15 1 E. coli 21-C8-A Native  6 RT_UG16 1 E. coli KTE25 Native  7 RT_UG1-nitrilase 2 Klebsiella NCTC9143 Native pneumoniae  8 RT_UG3 + RT_UG8 2 E. coli ECOR12 Native  9 ATPase_AAA + Ada 2 Citrobacter ATCC51459 Native rodentium 10 ATPase_KAP_TM 1 E. coli ECOR25 Native 11 ATPase_KAP + QueC + DNase_TatD 4 E. coli NCTC9009 Native 12 DUF4011-Helicase_SF1_Dna2- 1 E. coli ATCC43886 Native Nuclease_Vsr-DUF3320 13 ATPase_GHKL + Helicase_SF2_HepA 2 Vibrio harveyi ATCC43516 bla 14 MBL + Protease_S1-ATPase_STAND 3 Erwinia CFBP5888 bla piriflorinigrans 15 DUF4297-ATPase_STAND 2 Salmonella NCTC13175 Native enterica 16 ATPase_STAND 1 E. coli NCTC9087 Native 17 Nuclease_Mrr-ATPase_STAND 1 E. coli NCTC11132 Native 18 SIR2-ATPase_STAND 1 E. coli NCTC13384 Native 19 SIR2-DUF4020 1 E. coli NCTC9112 Native 20 SIR2 1 Cronobacter NCTC8155 Native sakazakii 21 SIR2 + Helicase_HerA 2 E. coli NCTC11129 Native 22 Nuclease_DUF4297 + Helicase_HerA 2 E. coli NCTC11131 Native 23 vWA + phosphatase_PP2C + STK-IB 3 E. coli NCTC9094 Native 24 Phosphoesterase_PHP-ATPase_SMC 1 E. coli NCTC8620 Native 25 Nuclease_DUF1887 1 Salmonella NCTC6026 Native enterica 26 ATPase_AAA + Protease_S8 2 E. coli ECOR52 Native 27 ATPase_DUF499 + DUF3780 + 4 E. coli ECOR58 Native Methylase_DUF1156 + Nuclease_PLD- Helicase_HepA 28 RT_IG9 + DNA Po1A 2 Pseodomonas Wood1 lac brassicacearum Native 29 RT_retron _ ATPase_AAA + HNH (Ec78) 3 E. coli ECONIH5 Native

TABLE 6 PCR primers used to amplify genomic DNA source organisms containing validated defense systems. # Primer Sequence BREX Fwd gctaacttacattaattgcgttgcgcaACAGCACCACGTTCATCTTCC type I (SEQ ID NO: 98) Rev ccaaggggttatgctagttattgcgGTTCATTAAAATAGTTACTACGTTAATTCACACCC (SEQ ID NO: 99) Druantia Fwd gctaacttacattaattgcgttgcgcaGGTGAACGTTTGGTTGATAGGG type I (SEQ ID NO: 100) Rev ccaaggggttatgctagttattgcgCTCAATGGGCATAATTTTACATTGTGC (SEQ ID NO: 101) RT-Abi-P2 Fwd gctaacttacattaattgcgttgcgcaACATCCCGTCATCATGCCATC (SEQ ID NO: 102) Rev ccaaggggttatgctagttattgcgCTCCTCGGAATAGAATGTTATGTTCG (SEQ ID NO: 103)  1 Synthesized  2 Fwd gctaacttacattaattgcgttgcgcaCGCGCTATCACGTAAAATAGGC (SEQ ID NO: 104) Rev ccaaggggttatgctagttattgcgCGAAAAATCAGCCTTAGCGTTCATAAC (SEQ ID NO: 105)  3 Fwd gctaacttacattaattgcgttgcgcaGCTCATGTTATGCATGTGCATG (SEQ ID NO: 106) Rev ccaaggggttatgctagttattgcgATTAGGTCTTCGCTTTATTTAAAGGGTTC (SEQ ID NO: 107)  4 Synthesized  5 Synthesized  6 Synthesized  7 Fwd gagctaacttacattaattgcgttgcgcaGTCCTTAAACACGACAAAACCTGTG (SEQ ID NO: 108) Rev cccaaggggttatgctagttattgcgCGCAATGTAACACCCACCC (SEQ ID NO: 109)  8 Fwd gctaacttacattaattgcgttgcgcaTCTCAACTTCCCCAAATGTCCG (SEQ ID NO: 110) Rev cccaaggggttatgctagttattgcgTTAGCAAAATACGCCCACGAAGTC (SEQ ID NO: 111)  9 Fwd gctaacttacattaattgcgttgcgcaGAGGATTTATGCACAAAATCCTGATGC (SEQ ID NO: 112) Rev ccaaggggttatgctagttattgcgGATTTAATCTGTTGTTCCGAACGG (SEQ ID NO: 113) 10 Fwd gctaacttacattaattgcgttgcgcaACCGTGCTGGCATGTTTTTAC (SEQ ID NO: 114) Rev ccaaggggttatgctagttattgcgAGGAAGATCCGTGACCAGGAG (SEQ ID NO: 115) 11 Fwd gctaacttacattaattgcgttgcgcaGAAATTATTTGGAATGGATGATGGCG (SEQ ID NO: 116) Rev ccaaggggttatgctagttattgcgACTTCTACCTCCCTTTAGAAAAGTTAATG (SEQ ID NO: 117) 12 Fwd gctaacttacattaattgcgttgcgcaCGGATTGAATCTGTTTATGAAATTTGGCTG (SEQ ID NO: 118) Rev ccaaggggttatgctagttattgcgCCGACAGTTGTCACTGTTCTTATTACC (SEQ ID NO: 119) 13 Fwd ccctgataaatgcttcaataatattgaaaaaggaagagtATGGCGGGTGCTTCAATAGAC (SEQ ID NO: 120) Rev cccaaggggttatgctagttattgcgTTAGTTACTTGCTTTGTAGAATACCGTTAATGG (SEQ ID NO: 121) 14 Rev cccaaggggdatgctagttattgcgTCAATCCGTAGCCTCTTCATTCTCG (SEQ ID NO: 122) Fwd ataaatgcttcaataatattgaaaaaggaagagtATGGTAGCGATAAAAATGTATCCGGC (SEQ ID NO: 123) 15 Fwd gctaacttacattaattgcgttgcgcaACAATTTTTTGCCATAAGACGCTTTC (SEQ ID NO: 124) Rev ccaaggggdatgctagdattgcgCATTAGGACTAGTAGAAAAGTCTTGGG (SEQ ID NO: 125) 16 Fwd gctaacttacattaattgcgdgcgcaGGGATTTCCACCACCTCCC (SEQ ID NO: 126) Rev ccaaggggdatgctagdattgcgTGCATAGCCAATGAAGATAAACGTG (SEQ ID NO: 127) 17 Fwd gctaacttacattaattgcgdgcgcaGCGCAGCTGACAAAGATTGAC (SEQ ID NO: 128) Rev ccaaggggdatgctagdattgcgCGATAATAAAAAGGCTCCAATCCCTG (SEQ ID NO: 129) 18 Fwd gctaacttacattaattgcgdgcgcaACTAGCTAAGCAATAAGGGCG (SEQ ID NO: 130) Rev ccaaggggdatgctagttattgcgCAATCTCCGAGGTGGCCC (SEQ ID NO: 131) 19 Fwd gctaacttacattaattgcgdgcgcaTATTTTGCGTAGCTAGAACGCAATC (SEQ ID NO: 132) Rev ccaaggggdatgctagdattgcgTGGGTATTAGCTCATATCAGAACTAATACCC (SEQ ID NO: 133) 20 Fwd gctaacttacattaattgcgdgcgcaGTAAGACAAGGGTTGAGCAGGC (SEQ ID NO: 134) Rev ccaaggggdatgctagdattgcgCAATGGTGGGCTGATTAATTAGATGAG (SEQ ID NO: 135) 21 Fwd gctaacttacattaattgcgdgcgcaTAGCTATTGTGACTATGCTAACCATATG (SEQ ID NO: 136) Rev ccaaggggdatgctagdattgcgTTCAGTCTAAATACATACCTGTCGGG (SEQ ID NO: 137) 22 Fwd gctaacttacattaattgcgdgcgcaGTGCGCCTTATGTGATTACAACG (SEQ ID NO: 138) Rev ccaaggggdatgctagdattgcgCTCTCAGCCTAATGATTCCAGAATAG (SEQ ID NO: 139) 23 Fwd gctaacttacattaattgcgdgcgcaCGTGATGAATGAAGCGGCTAAATAC (SEQ ID NO: 140) Rev ccaaggggdatgctagdattgcgGTAAATCCTCGGGAAAACACAGG (SEQ ID NO: 141) 24 Fwd gctaacttacattaattgcgdgcgcaGATGGACTGGTACTGTAGATTCACC (SEQ ID NO: 142) Rev ccaaggggdatgctagdattgcgCAAAGACGCAGAGGCCATCAG (SEQ ID NO: 143) 25 Fwd gctaacttacattaattgcgdgcgcaGGGCTGTTTGGTTGAATTAAAAATACG (SEQ ID NO: 144) Rev ccaaggggdatgctagdattgcgCCTTGATTTAAAACTATCAGTAGTAGGAACG (SEQ ID NO: 145) 26 Fwd gctaacttacattaattgcgdgcgcaATAGAACGATGAAGGATGGAAGCTAC (SEQ ID NO: 146) Rev ccaaggggdatgctagttattgcgTTGTATTTTGTTGTGTATGGGCGG (SEQ ID NO: 147) 27 Fwd gctaacttacattaattgcgdgcgcaCGTGATTCAGTTCGCCAGAC (SEQ ID NO: 148) Rev ccaaggggdatgctagdattgcgCACTCGAAATGGATACCCTGAG (SEQ ID NO: 149) 28 Synthesized 29 Synthesized

TABLE 7 Predicted protein domains within validated defense systems. Transmembrane helices were identified using TMHMM, and all other domains were identified using HHpred. Representative ID Gene Domain HHpred Hit Probability Start End Residues BREX A DUF1819 PF08849.11 100 6 189 201 type I B DUF1788 PF08747.11 100 65 187 200 C ATPase PF07693.14 96.66 43 348 1213 C DUF499 PF04465.12 99.88 247 846 1213 D Methyltransferase PF02384.16 99.7 210 622 1201 E PglZ PF08665.12 99.12 474 650 865 F Lon protease PF13337.6 100 30 484 694 F Lon protease PF05362.13 99.9 486 693 694 Druantia A DUF4338 PF14236.6 99.92 45 339 404 type I B CoiA PF06054.11 99.77 1 182 548 C Macoilin PF09726.9 96.72 167 323 627 E Helicase PF00270.29 98.45 99 388 1836 E Helicase 5V9X_A 97.55 1071 1208 1836 E DUF1998 PF09369.10 98.92 1626 1710 1836 RT-Abi-P2 A RT PF00078.27 99.09 68 291 515 1 A RT PF00078.27 99.43 105 309 542 A TIR PF13676.6 97.91 411 536 542 2 A RT PF00078.27 99.45 48 262 586 A TOPRIM cd01026 96.88 367 465 586 3 A Nuc_deoxy PF15891.5 96.04 29 128 307 B RT PF00078.27 99.52 53 248 320 4 A RT PF00078.27 99.63 54 328 425 5 A RT PF00078.27 99.12 67 296 540 6 A RT PF00078.27 99.14 59 263 494 7 A RT PF00078.27 99.06 80 382 1232 A Nitrilase PF00795.22 98.89 953 1216 1232 B Transmembrane — — 4 26 144 8 A RT PF00078.27 99.39 53 251 398 B RT PF00078.27 98.96 63 323 667 9 A ATPase PF07693.14 99.6 33 364 851 B Adenosine deaminase PF00962.22 99.52 166 831 856 10 A ATPase PF07693.14 97.62 39 390 1273 A Transmembrane — — 160 177 1273 A Transmembrane — — 199 218 1273 11 A ATPase PF07693.14 99.8 15 385 643 C QueC PF06508.13 99.67 150 369 457 D TatD DNase PF01026.21 99.94 13 254 263 12 A DUF4011 PF13195.6 99.81 33 308 1911 A ATPase PF13086.6 97.93 427 552 1911 A Helicase PF01443.18 97.82 1379 1636 1911 A Endonuclease PF18741.1 98.7 1683 1780 1911 13 A GHKL ATPase 5V44_A 99.46 1 241 2511 A GHKL ATPase 5V44_A 99.03 1544 1756 2511 B Helicase 6BOG_B 100 1 873 893 14 A MBL-fold hydrolase PF00753.27 98.79 8 324 386 B Protease PF02122.15 98.23 2 187 1935 B ATPase PF14516.6 99.36 204 535 1935 15 A DUF4297 PF14130.6 98.41 8 223 2092 A ATPase PF14516.6 99.44 250 597 2092 16 A ATPase PF14516.6 98.93 316 643 1484 17 A Mrr PF13156.6 97.05 17 162 1587 A ATPase PF14516.6 99.07 204 476 1587 18 A SIR2 cd00296 99.26 22 244 769 A ATPase PF14516.6 97.6 312 464 769 19 A SIR2 cd00296 99.44 21 253 1275 A DUF4020 PF13212.6 98.39 1114 1268 1275 20 A SIR2 cd00296 99.47 21 240 1207 21 A SIR2 cd00296 99.59 26 338 415 B HerA helicase 4D2I_B 100 10 608 610 22 A DUF4297 PF14130.6 99.05 1 191 394 B HerA helicase 4D2I_B 100 7 568 571 23 A VWA PF00092.28 98.93 14 203 277 B Phosphatase PF00481.21 99.74 5 232 239 C Kinase PF00069.25 100 34 296 561 C ssDNA-binding PF01336.25 96.18 344 435 561 24 A PHP cd07436 99.36 4 238 891 A ATPase PF13166.6 99.74 266 836 891 25 A DUF1887 PF09002.11 92.5 1105 1272 1272 26 A ATPase PF13654.6 97.36 5 349 384 B Protease PF00082.22 99.87 264 561 754 27 A ATPase PF07693.14 96.47 49 312 1022 A DUF499 PF04465.12 100 79 745 1022 B DUF3780 PF12635.7 100 1 187 195 C DUF1156 PF06634.12 99 18 81 945 C Methyltransferase PF01555.18 96.08 150 202 945 C Methyltransferase PF01555.18 97.76 548 682 945 D PLD cd09179 99.17 4 177 907 D Helicase 6BOG_B 100 218 865 907 28 A RT PF00078.27 99.35 136 351 613 B DNA PolA 2KFZ_A 100 31 515 515 29 A RT PF00078.27 99.37 34 241 311 B ATPase PF13175.6 99.8 64 432 550 C HNH PF01844.23 97.57 43 85 216

TABLE 8 Amino acid sequences of validated defense systems. # Gene Sequence BREX A MIKNDKAWIGLLGGPLMSRESRVIAELLLTDPDEQTWQEQIVGHNILQASSPNTAKRYAATI type I RLRLNTLDKSAWTLIAEGSERERQQLLFVALMLHSPVVKDFLAEVVNDLRRQFKEKLPGNSW NEFVNSQVRHLPVLASYSDSSIAKMGNNLVKALAEAGYVDTPRRRNLQAVYLLPETQAVLQR LGQQDLISILEGKR (SEQ ID NO: 150) B MIDPVLEYRLSQIQSRINEDRFLKNNGSGNEIGFWIFDYPAQCELQVREHLKYLLRHLEKDH KFACLNVFQIIIDMLNERGLFERVCQQEVKVGTETLKKQLAGPLNQKKIADFIAKKVDLAAQ DFVILTGMGNAWPLVRGHELMSALQDVMGFTPLLMFYPGTYSGYNLSPLTDTGSQNYYRAFR LVPDTGPAATLNPQ* (SEQ ID NO: 151) C MNIEQIFEKPLKRNINGVVKAEQTDDASAYIELDEYVITRELENHRHFFESYVPATGEPRIR MENKIGVWVSGFFGSGKSHFIKILSYLLSNRKVTHNGTERNAYSFFEDKIKDALFLADINKA VHYPTEVILFNIDSRANVDDKEDAILKVFLKVFNERIGYCADFPHIAHLERELDKRGQYETF KAAFADINGSRWEDERDAYYFISDDMAQALSQATQQSLESSRQWVEQLDKNFPLDINNFCQW VKEWLDDNGKNILFMVDEVGQFIGKNTQMMLKLQTITENLGVICGGRAWVIVTSQADINAAI GGMSSRDGQDFSKIQGRFSTRLQLSSSNTSEVIQKRLLVKTDEAKAALAKVWQEKADILRNQ LAFDTTTTTALRPFTSEEEFVDNYPFVPWHYQILQKVFESIRTKGAAGKQLAMGERSQLEAF QTAAQQISAQGLDSLVPFWRFYAAIESFLEPAVSRTITQACQNGILDEFDGNLLKTLFLIRY VETLKSTLDNLVTLSIDRIDADKVELRRRVEKSLNTLERLMLIARVEDKYVFLTNEEKEIEN EIRNVDVDFSAINKKLASIIFDDILKSRKYRYPANKQDFDISRFLNGHPLDGAVLNDLVVKI LTPKDPTYSFYNSDATCRPYTSEGDGCILIRLPEEGRTWSDIDLVVQTEKFLKDNAGQRPEQ ATLLSEKARENSNREKLLRVQLESLLAEADVWAIGERLPKKSSTPSNIVDEACRYVIENTFG KLKMLRPFNGDISREIHALLTVENDTELDLGNLEESNPDAMREVETWISMNIEYNKPVYLRD ILNHFARRPYGWPEDEVKLLVARLACKGKFSFSQQNNNVERKQAWELFNNSRRHSELRLHKV RRHDEAQVRKAAQTMADIAQQPFNEREEPALVEHIRQVFEEWKQELNVFRAKAEGGNNPGKN EIESGLRLLNAILNEKEDFALIEKVSSLKDELLDFSEDREDLVDFYRKQFATWQKLGAALNG SFKSNRSALEKDAAAVKALGELESIWQMPEPYKHLNRITPLIEQVQVNHQLVEQHRQHALER IDARIEESRQRLLEAHATSELQNSVLLPMQKARKRAEVSQSIPEILAEQQETKALQMDADKK INLWIDELRKKQEAQLRAANEAKRAADSEQTYVVVEKTVIQPVPKKTHLVNVASEMRNATGG EVLETTEQVEKALDTLRTTLLAVIKAGDRIRLQ* (SEQ ID NO: 152) D MNTNNIKKYAPQARNDFRDAVQIKLTTLGIAADKKGNLQIAEAETIGETVRYGQFDYPLSTL PRRERLVKRAREQGFEVLVEHCAYTWFNRLCAIRYMELHGYLEHGFRMLSHPETPTAFEVLD HVPEVAEALLPENKAQLVEMKLSGNQDEALYRELLLGQCHALHHAMPFLFEAVDDEAELLLP DNLTRTDSILRGLVDDIPEEDWEQVEVIGWLYQFYISEKKDAVIGKVVKSEDIPAATQLFTP NWIVQYLVQNSVGRQWLQTYPDSPLKDKMEYYIEPAEQTPEVQAQLAAITPASIEPESIKVL DPACGSDHILIEAYNVLKNIYEEGYRGRDIPQLILENNIFGLDIDDRAAQLSGFALLMMARQ DDRRIFTRDVRLNIVSLQESLHLDIAKLWQQLNFHQQVQTGSMGDMFAENNALTQTDSAEYQ LLMRTLKRFVNAKTLGSLIQVPQEEEAELKVFLDALYREQEGDFQQKTAAKAFIPFIQQAWI LAQRYDAVVANPPYMGGNYMETELKNFVSSYYPQGKADLYSSFMVRLLLQLKDNRTLSLMTP FTWMNLSSFEELRKIILTNFSIQSLVQPEYHSFFESAYVPICAFSISNTPLSWNAKFFDLSD FYGEKNQAPNFQYAIKNDNKCHWKYNRITTDFLTPGYIIAYSLPDSALSCFKTSKKLHDVCN LKQGLITGDNERYLRFSHESIYNSFSLNEKRKKTKWFPYQKGGAYRKWYGNNDYVVDWENDG YSIKNFYNDKGKLRSRPQNIQFYCKEGLTWTSLTISSLSMRYVPNGYIFDAKGPMCPKSSLD IWNILGYANSKVIDIFLKQLAPTMDYSQGPVGNVPFKFNDGDLNEIIKELVNIHKRDWDENE TSFEFKRDMLVHFSRDINTIKGSFTLRQGENKKAINRTKFLEEMNNSFFINCFNLTDILSPE IELNKITLTHATIEIDIQKIISYAIGCQMGRYSLDREGLVYAHEGNNGFADLVAEGAYKSFP ADSDGILPLMDEEWFDDDVTSRVKEFIRTVWGEEYLRENLDFIAEVLKPKKGESALEITIRR YLSTQFWKDHLKMYKKRPIYWLFSSGKEKAFECLVYLHRYNDATLSRMRTEYVVPLLARYQA NIDRLNDQLDEASGGESTRLKRERDSLIKKFSELRSYDDRLRHYADMRISIDLDDGVKVNYG KFGDLLADVKAITGNAPEVI* (SEQ ID NO: 153) E MQNQDFIAGLKAKFAEHRIVFWHDPDKRFIEELEQLKLESVTLINMTHESQLAVKKRIEIDE PEQQFLLWFPHDAPPHEQDWLLDIRLYSSEFHADFAAITLNTLGIPQLGLREHIQRRKAFFS TKRTQALKNLATEQEDEASLDKKMIAVIAGAKTAKTEDILFNLITYQYVNQQIEDDSELENT QAMLKRHGLDSVLWEMLNHEMGYQAEEPSLENLLLKLFCTDLSAQADPQQRAWLEKNVLLTP SGRASALAFMVTWRADRRYKEAYDYCAQQMQAALHPEDHYRLSSPYDLHECETTLSIEQTII HALVTQLLEESTTLDREAFKKLLSERQSKYWCQTQPEYYAIYDALRQAERLLNLRNRHIDGF HYQDSATFWKAYCEELFRFDQAYRLFNEYALLVHSKGAMILKSLDDYIEALYSNWYLAELSR NWNEVLEAENEMQAWQIPGVPRQQNFFNEVVKPQFQNPQIKRVFVIISDALRYEVAEELGNQ INTEKRFTAELRSQLGVLPSYTQLGMAALLPHEQLCYQPGNGDIVYADGLSTSGIPNRDTIL KNYKGMAIKSKDLLELKNQEGRDLIRDYEVVYIWHNTIDATGDTASTEDKTFEACRTAVAEL KDLVTKVINRLHGTRIFVTADHGFLFQQQALSVQDKTTLQIKPENTIKNHKRFIIGHQLPAD DFCWKGKVADTAGVSDNSEFLIPKGQIRFFSGGARFVHGGTMLQEVCVPVLQIKALQKTAAE KQPQRRPVDIVAYHPMIKLVNNIDKVSLLQTHPVGELYERPRILNIYIVDNANNVVSGKERI SFDSDNNTMEKRVREVTLKLIGANFNRRNEYWLILEDAQTETGYQKYPVIIDLAFQDDFF* (SEQ ID NO: 154) F MQTHHDLPVSGVSAGEIASEGYDLDALLNQHFAGRVVRKDLTKQLKEGANVPVYVLEYLLGM YCASDDDDVVEVQGLQNVKRILADNYVRPDEAEKVKSLIRERGSYKIIDKVSVKLNQKKDVY EAQLSNLGIKDALVPSQMVKDNEKLLTGGIWCMITVNYFFEEGQKTSPFSLMTLKPIQMPNM DMEEVFDARKHFNRDQWIDVLLRSVGMEPANIEQRTKWHLITRMIPFVENNYNVCELGPRGT GKSHVYKECSPNSLLVSGGQTTVANLFYNMASRQIGLVGMWDVVAFDEVAGITFKDKDGVQI MKDYMASGSFSRGRDSIEGKASMVFVGNINQSVETLVKTSHLLAPFPTAMIDTAFFDRFHAY IPGWEIPKMRPEFFTNRYGLITDYLAEYMREMRKRSFSDAIDKFFKLGNNLNQRDVIAVRRT VSGLLKLMHPDGAYSKEDVRVCLTYAMEVRRRVKEQLKKLGGLEFFDVNFSYIDNETLEEFF VSVPEQGGSELIPAGMPKPGVVHLVTQAESGMTGLYRFETQMTAGNGKHSVSGLGSNTSAKE AIRVGFDYFKGNLNRVSAAAKFSDHEYHLHVVELHNTGPSTATSLAALIALCSILLAKPVQE MQMVVLGSMTLGGVINPVQDLAASLQLAFDSGAKRVLLPMSSAMDIPTVPAELFTKFQVSFY SDPVDAVYKALGVN* (SEQ ID NO: 155) Druantia A MHKYPSIIVNINLREAKLKKKVREHLQSLGFTRSDSGALQAPGNTKDVIRALHSSQRAERIF type I ANQKFITLRAAKLIKFFASGNEVIPDKISPVLERVKSGTWQGDLFRLAALTWSVPVSSGFGR RLRYLVWDESNGKLIGLIAIGDPVFNLAVRDNLIGWDTHARSSRLVNLMDAYVLGALPPYNA LLGGKLIACLLRSRDLYDDFAKVYGDTVGVISQKKKQARLLAITTTSSMGRSSVYNRLKLDG IQYLKSIGYTGGWGHFHIPDSLFIELRDYLRDMDHAYADHYMFGNGPNWRLRTTKAALNALG FRDNLMKHGIQREVFISQLAENATSILQTGKGEPDLTSLLSAKEIAECAMARWMVPRSIRNP EYRLWKARDLFDFISNDSLNFPPFDEIAKTVV* (SEQ ID NO: 156) B MNYAIDKFTGTLELAARATKYAQYVCPVCKKGVNLRKGKVIPPYFAHLPGHGTSDCENFVPG NSIIVETIKTISKRYMDLRLLIPVGSNSREWSLELVLPTCNLCRAKITLDVGGRSQTLDMRS MVKSRQIGAELSVKSYRIVSYSGEPDPKFVTEVERECPGLPSEGAAVFTALGRGASKGFPRA QELRCTETFAFLWRHPVAPDFPDELEIKSLASKQGWNLALVTIPEVPSVESISWLKSFTYLP VVPARTSITAIWPFLNQKTSINHVECVYSDTILLSTNMAPTSSENVGPTMYAQGSSLLLSAV GVETSPAFFILNPGENDFVGVSGSIEQDVNLFFSFYKKNVSVPRKYPSIDLVFTKRNKEKTI VSLHQRRCIEVMMEARMFGHKLEYMSMPSGVEGVARIQRQTESNVIKLVSNDDIAAHDKSMR LLSPVALSQLSDCLANLTCHVEIDFLGLGKIFLPGSSMLSLDDGKFIELSPNLRSRILSFIL QMGHTLHGFSLNNDFLLVEKLVDLQPEPHLLPHYRALVKEVKTNGFECNRFR* (SEQ ID NO: 157) C MSYQYSQEAKERISKLGQSEIVNFINEISPTLRRKAFGCLPKVPGFRAGHPTEIKEKQKRLI GYMFQSHPSSEERKAWKSFSLFWQFWAEEKIDKSFSMIDNLGLKENSGSIFIRELAKNFPKV ARENIERLFIFSGFADDPDVINAFNLFPPAVVLARDIVIDTLPRILDELEARISLIADNVEK KNNHIKELELKIDAFSEQFDNYFNNEKSSLKIINELQSLINSETKQSDIANKAIDELYHFNE KNKQLILSLQEKLDFNALAMNDISEHEKLIKSMANDISEFKNALTILCDNKIKNNELDYVNE LKKLTERIDTLEINTSQASEVSVTNRFTKFHEIAHYENYEYLSSSEDISNRISLNLQAVGLT KNSAEKLARLTLATFVSGQIIQFSGSLADIIADAIAIAGAPRYHIWRVPVGIISDMDAFDFI ETIAESSRCLLLKGANLSAFEIYGAAIRDIVVQRQIHPTNYDHLALIATWKQGPATFPDGGM LAELGPVIDTDTLKMRGLSATLPQLKPGCLAKDKWTNIDGLHLDSVDDYVDELRALLDEAGF DGGTLWKRMIHIFYTSLIRIPNGNYIYDLYSVLSFYTLTWAKIKGGPVQKIEDIANRELKNY SAKISS*(SEQ ID NO: 158) D MEWRAVSRDKALDMLSTALNCRFDDEGLRISAVSECLRSVLYQYSISETEEARQTVTSLRLT SAVRRKLVPLWPDIADIDNAIHPGIMSILNSLAELGDMIKLEGGNWLTAPPHAVRIDNKMAV FFGGEPSCTFSTGVVAKSAGRVRLVEEKVCTGSVEIWDANEWIGAPAEGNEEWSSRLLSGTI SGFIDAPGNMSETTAYVRGKWLHLSELSFNKKQIYLCRMSVDNHFSYYLGEIEAGRLCRMNS LESSDDVRRLRFFLDTKCNCPLKVRIKISNGLARLRLTRRLPRRETKVLLLGWRESGFENEH SGITHHVFPEEILPIVRSAFEGLGIIWINEFTRRNEI* (SEQ ID NO: 159) E MINKNKVTERSGIHDTVKSLSENLRKYIEAQYHIRDEGLIAERRALLQQNETIAQAPYIEAT PIYEPGAPYSELPIPEAASNVLTQLSELGIGLYQRPYKHQSQALESFLGENASDLVIATGTG SGKTESFLMPIIGKLAIESSERPKSASLPGCRAILLYPMNALVNDQLARIRRLFGDSEASKI LRSGRCAPVRFGAYTGRTPYPGRRSSRRDELFIKPLFDEYNKLANNAPVRAELNRIGRWPSK DLDAFYGQSASQAKTVYSGKKTGKQFVLNNWGERLITQPEDRELMTRHEIQNRCPELLITNY SMLEYMLMRPEIRNIFEQTKEWLKADEMNELILVLDEAHMYRGAGGAEVALLIRRLCARLDI PRERMRCILTSASLGSIEDGERFAQDLTGLSPTSSRKFRIIEGTRESRPESQIVTSKEANAL AEFDLNSFQCVAEDLESAYAAIESLAERMGWQKPMIKDHSTLRNWLFDNLTGFGPIEITLIE IVSGKAVKLNILSENLFPDSPQQIAERATDALLALGCYAQRADGRVLIPTRMHLFYRGLPGL YACIDPDCNQRLGNHSGPTILGRLYTKPLDQCKCASKGRVYELFTHRDCGAAFIRGYVSSEM DFWHQPNGPLSEDEDIDLVPIDILVEETPHVHSDYQDRWLHIATGRLSKQCQDEDSGYRKVF IPDRVKSGSEITFDECPVCMRKTRSAQNEPSKIMDHVTKGEAPFTTLWTQISHQPASRPIDG KHPNGGKKVLIFSDGRQKAARLARDIPRDIELDLFRQSIALACSKLKDINREPKPTSVLYLA FLSVLSEHDLLIFDGEDSRKVVMARDEFYRDYNSDLAQAFDDSFSPQESPSRYKIALLKLLC SNYYSLSGTTVGFVEPSQLKSKKMWEDVQSKKLNIESKDVHALAVAWIDTLLTEFAFDESID STLRIKAAGFYKPTWGSQGRFGKALRKTLIQYPAMGELYVEVLEEIFRTHLTLGKDGVYFLA PNALRLKIDLLHVWKQCNDCTALMPFALEHSTCLACGSNSVKTVEPSESSYINARKGFWRSP VEEVLVSNSRLLNLSVEEHTAQLSHRDRASVHATTELYELRFQDVLINDNDKPIDVLSCTTT MEVGVDIGSLVAVALRNVPPQRENYQQRAGRAGRRGASVSTVVTYSQNGPHDSYYFLNPERI VAGSPRTPEVKVNNPKTARRHVHSFLVQTFFHELMEQGIYNPAEKTAILEKALGTTRDFFHG AKDTGLNLDSFNNWVKNRILSTNGDLRTSVAAWLPPVLETGGLSASDWFAKVAEEFLNTLHG LAEIVPQTAVLVDEENEDDEQTSGGMKFAQEELLEFLFYHGLLPSYAFPTSLCSFLVEKIVK NIRGSFEVRTVQQPQQSISQALSEYAPGRLIVIDRKTYRSGGVFSNALKGELNRARKLFNNP KKFIHCDKCSFVRDPHNNQNSENTCPICGGILKVEIMIQPEWGPENAKELNEDDREQEITYV TAAQYPQPVDPEDFKFNNGGAHIVFTHAIDQKLVTVNRGKNEGESSGFSVCCECGAASVYDS YSPAKGAHERPYKYIATKETPRLCSGEYKRVFLGHDFRTDLLLLRITVGSPLVTDTSNAIVL RMYEDALYTIAEALRLAASRHKQLDLDPAEFGSGFRILPTIEEDTQALDLFLYDTLSGGAGY AEVAAANLDDILTATLALLESCECDTSCTDCLNHFHNQHIQSRLDRKLGASLLRYALYGMVP RCASPDIQVEKLSQLRASLELDGFQCIIKGTQEAPMIVSLNDRSIAVGSYPGLIDRPDFQHD VYKSKHTNAHIAFNEYLLRSNLPQSHQNIRKMLR* (SEQ ID NO: 160) RT-Abi-P2 A MKKVYELTSEEALSYFLRHDSYTTLELPAYINFTTLLNDINSSIHNKKIKIEPTAKELMGKD INYEVLVSKDGLYSWRRITLINPLYYVYFCRKITAPATWEIITEKFKSFESNDLFTCSSIPV RKDNSSNIAASVMNWWEDFEQKSLALALEYEFWSTDISNFYPSIYTHSFEWVFISKEEAKKK KSKNNPGGLIDSHIQMMMNNQTNGIPLGSTLMDTFAELILGQIDIELRKKTNELKIINYKWR YRDDYRIFSNSKDDLDIISKCLVNVLGDFGLDLNSKKTELYEDIILHSLKQAKKDYIKEKRH KSLQKMLYSIYLFSLKHPNSKTTVRYLNDFLRNLFKRKTIKDNGQQVDAMLGIISSIMAKNP TTYPVGTAIFSKLLSFLYGDDTQKKLTKLEQLHKKLDKQPNTEMLDIWFQRTQAKINLEWNK SYKSALCVRINDELTKEKTFSVNNLWNIDWIQGKETSPNKAKILSLLRKTKIVDTDKFDKMD DNITPEEVNLFFKEHSN* (SEQ ID NO: 161)  1 A MSLHDKLLMHNFALANKKSPDFISELPQIEPKPYSNGHKIKWINHTLTSTEVTPPDNLIKIC ILIESGEIAITSVSDIANLLGVPAGQLLYILYRKKDNYRTFEIEKKNGKKRVINAPCGGLSI LQTRLKPVLEYFYRPKKSAHGFDCGKSIITNAGMHIKKNFWNIDLENYFESISFARVYGIFK SKPFNFAHPAATVLAQLCTHNGKLPQGACTSPILAMASASLDKQLTQFAGRKKISYSRYADD ITFSFNQRNIDIIKKNDDGSYSLSETIDNIISKNGFKINYDKFRVQTRNTRQSVTGLWNDKV NINRRYIRITRSMIHRWTDDKLKYALLFATEKGYQAKDNNHAIQIFRNHIYGRLSFIKMVRG KDYPGYLKLMSYMSHNDPLKTQEGLRAMKETENFDVFICHASEDKKDIAIPIYDELTKLKIS AFIDHVEIKWGDSLIDKINAALVKSKYVIAILSANSVNKEWPQKELRAVLASEISSGDVKLL TLLKKEDEEVVNLSLPLLSDKFYMVYDNNPEVVANNIKSLLQR* (SEQ ID NO: 162)  2 A MTKTSKLDALRAATSREDLAKILDVKLVFLTNVLYRIGSDNQYTQFTIPKKGKGVRTISAPT DRLKDIQRRICDLLSDCRDEIFAIRKISNNYSFGFERGKSIILNAYKHRGKQIILNIDLKDF FESFNFGRVRGYFLSNQDFLLNPVVATTLAKAACYNGTLPQGSPCSPIISNLICNIMDMRLA KLAKKYGCTYSRYADDITISTNKNTFPLEMATVQPEGVVLGKVLVKEIENSGFEINDSKTRL TYKTSRQEVTGLTVNRIVNIDRCYYKKTRALAHALYRTGEYKVPDENGVLVSGGLDKLEGMF GFIDQVDKFNNIKKKLNKQPDRYVLTNATLHGFKLKLNAREKAYSKFIYYKFFHGNTCPTII TEGKTDRIYLKAALHSLETSYPELFREKTDSKKKEINLNIFKSNEKTKYFLDLSGGTADLKK FVERYKNNYASYYGSVPKQPVIMVLDNDTGPSDLLNFLRNKVKSCPDDVTEMRKMKYIHWYN LYIVLTPLSPSGEQTSMEDLFPKDILDIKIDGKKFNKNNDGDSKTEYGKHIFSMRVVVDKKR KIDFKAFCCIFDAIKDIKEHYKLMLNS* (SEQ ID NO: 163)  3 A MNKKFTDEQQQQLIGHLTKKGFYRGANIKITIFLCGGDVANHQSWRHQLSQFLAKFSDVDIF YPEDLFDDLLAGQGQHSLLSLENILAEAVDVIILFPESPGSFTELGAFSNNENLRRKLICIQ DAKFKSKRSFINYGPVRLLRKFNSKSVLRCSSNELKEMCDSSIDVARKLRLYKKLMASIKKV RKENKVSKDIGNILYAERFLLPCIYLLDSVNYRTLCELAFKAIKQDDVLSKIIVRSVVSRLI NERKILQMTDGYQVTALGASYVRSVFDRKTLDRLRLEIMNFENRRKSTFNYDKIPYAHP* (SEQ ID NO: 164) B MKSAEYLNTFRLRNLGLPVMNNLHDMSKATRISVETLRLLTYTADFRYRIYTVEKKGPEKRM RTIYQPSRELKALQGWVLRNILDKLSSSPFSIGFEKHQSILNNATPHIGANFILNIDLEDFF PSLTANKVFGVFHSLGYNRLISSVLTKICCYKNLLPQGAPSSPKLANLICSKLDYRIQGYAG SRGLIYTRYADDLTLSAQSMKKVVKARDFLFSHPSEGLVINSKKTCISGPRSQRKVTGLVIS QEKVGIGREKYKEIRAKIHHIFCGKSSEIEHVRGWLSFILSVDSKSHRRLITYISKLEKKYG KNPLNKAKT* (SEQ ID NO: 165)  4 A MNNDDYPWFRKRGYLHFDEPVSLKKAVKYVSSPEKIIKHSFLPFLSFEVKSFKIKKDKSTKQ LSKTEKLRPIAYSSHLDSHIYAFYAEYLTGHYELLIQENNLHENILAFRSLNKSNIEFAKRA FDTITEMGECSAVALDLSGFFDNLDHQILKHQWCKVIGTEALPQDHFAIYKSITRYSKVDKN RAYEILGISKNNPKYNRRKICTPVDFRNKIRKNGLITVNNSQKGIPQGSPTSALLSNIYMLD FDTEMRDYAQERGGHYYRYCDDMLFIVPTKYNKTLAGDVAQRIKHLKVELNTKKTEIRDFIY KDSTLVANMPLQYLGFIFDGSNILLRSSSLARYSERMKRGVRLAKATMDSKNRIRENKGEAL KALFKKKLYARYSHIGRRNFLTYGYRAAKIMNSKAIKRQLKPLQKRLENEILK* (SEQ ID NO: 166)  5 A MVIFDEKRHLYEALLRHNYFPNQKGSISEIPPCFSSRTFTPEIAELISSDTSGRRSLQGYDC VEYYATRYNNFPRTLSIIHPKAYSKLAKHIHDNWEEIRFIKENENSMIKPDMHADGRIIIMN YEDAETKTIRELNDGFGRRFKVNADISGCFTNIYSHSTPWAVIGVNNAKIALNTKVKNQDKH WSDKLDYFQRQAKRNETHGVPIGPATSSIVCEIILSAVDKRLRDDGFLFRRYEDDYTCYCKT HDDAKEFLHLLGMELSKYKLSLNLHKTKITNLPGTLNDNWVSLLNVNSPTKKRFTDQDLNKL SSSEVINFLDYAVQLNTQVGGGSILKYAISLVINNLDEYTITQVYDYLLNLSWHYPMLIPYL GVLIEHVYLDDGDEYKNKFNEILSMCAENKCSDGMAWTLYFCIKNNIDIDDDVIEKIICFGD CLSLCLLDSSDIYEEKINNFVSDIIKLDYEYDIDRYWLLFYQRFFKDKAPSPYNDKCFDTMK GYGVDFMPDENYKTKAESYCHVVNNPFLEDGDEIVSFNDYMAIA* (SEQ ID NO: 167)  6 A MTSTIDFYESDFSATLYPLKTNQILLKHHSQEMSEYIYQKVINPAYPTDSFLSQQKVFSTKP KGHLRRTVKLDPVAEYFTYDVTYRNRKIFRPEVSESRKSFGYIFRNGSRIPIHVSYNEYKQS LKKYSELYSHSIHFDIASYFNSLYHHDIIHWFSSKEGVSPADVEALGQFFREINSGRSIDFM PQGIYPAKMIGNEFLKFVDLHGRLKSAQIVRFMDDFTIFDNDIETLNNDFIRIQQLLGQVSL NINPSKTTFDNVMGDVNETLTQIKSSLKEIITEYEHIPTASGVEWETNIEIIKHLDDEQVNK LIDLLKDEKIEESDADLILGFLRTHNDSLLSQMPMLLGRFPNLIKHIYTICSGITDKSGLVK ILLSYLNTNNNFLEYQLFWIGAIVEDYLLGVGEYGSVLHKLYELSGDFKIARAKVLEIPEQG FGFKEIRNEYLRTGQSDWLSWSSAIGTRNLKSAERNYILDYFSKGSPINYLVASCVKKL* (SEQ ID NO: 168)  7 A MKLLDKKYYNLEPKYEYLKDSFILGLAWKKTDSFVRTHNWYADILELDKCAFDISDEVTNWS NEISKNALSKSDIELIPAPKGASWFINQGKWTTNKDNRKIRPLANISIRDQSFATAVTMCLA DAIETRQKDCSLSNLGYAEHVKNKVVSYGNRLVCDWDNERARFRWGGSEYYRKFSSDYRSFL QRPIYIGRETVNKVSGIDDVYIISLDLKNFFGSIKINLLLEKIKKISADHYAAKFINDNEFW TLANRILSWDWPEESLSLLESLDKEKNVGLPQGLASAGALANAYLIEFDESLISKLRTKIED SQIILHDYCRYVDDIRLVISGEALESNKIKESIHALVQGILDETLAQNPSDNEPYLKINDSK TYILELSDIDNGSGLTNRINEIQHEVGASSIPERNGLDNNIPALQQLLLTEQDNFSEDVDSL FPGFKNDKSIKVESVRRFSAHRLEKSLAKKSKLISPEERKQFDNETSLIAKKLLKAWLKDPS IMVIFRKAIAINPNLDAYSTILEIIFSRIQRNRDKRDKYIMLYLLSDIFRSVIDVYRNLESE YVDDYQKLMGEVTLFAQKILSCKSFIPNYAYQQALFYLAVINKPFIASNKASFDLARLQCVL IKQHLEPLNSSDGYLFEVSAQISKDYRANAAFLLSHTNSNKVVDLIIEKFAFRGGEFWNAIW KEIVRMQDKDRINEFRWAISKYESKPNSSEHYLSSVISFKENPFRYEHALLKLGVALVELFD DTEKNVWQPDGKQYSPHEIKVKLEGNSTSWGELWRPNFSISCSIDKKGEPGKDPRYISPEWL ANYPQTQNDEQKIYWVCSVLRSAALGNVDYTQRNDLKLDKAKYDGIHSQFYKRRMGMLHTPE SIVGSYGTITDWFASFLQHGLQWPGFSSSYISQEDILSITNIIEFKNCLLERLGYLNKQICI SSNVPTLPTVVNRPELASNHFRIVTVQQLFPKDTNFHPSDVTLANPDVRWKHREHLAEICKL TEQTLNAKLKTESREHTSTADLIVFSELAVHPEDEDIVRALAFRTKAIIFSGFVFCEQDGRI VNKARWIIPDSSESGTQWRVRDQGKHHMTSDEVALGIQGYRPSQHIISIEGFIPEGPFKLTG AICYDATDIKLAADLRDLTDMFVIAAYNKDVDTFDNMASALQWHMYQHIVITNTGEYGGSTM QAPYKEKYHKLISHAHGTGQIAISTADIDLAAFRRKLQTYKKTKTQPAGYNRKH* (SEQ ID NO: 169) B MDTLVKLATIISPLISAGVAIWAILVAKKTISESKEIAKKTIADTAYQAYLQLAMENPQFSK GYSADCRQERDPMYDQYVWYVARMIFCFEKIIEVEVNLKDSSWANTLEKHLKFHSEHFKKTN VVEEALYIPPILDLIRCAAN* (SEQ ID NO: 170)  8 A MLNQSFSVSNLIKLLKKTDPKRYKTGRNSAEYKKYIADKVNGSIETYSFGSISNSRTNNKNV YIFKDFMDVLVARKINDNIKRVYSVKQNNRHDIIKKVNTVLSEPVNYYIYRLDIKSFYESID KNIVFQRINNNPIISHNTKKFINGLFKHNAFSANNGLPRGMGLSATLSEIFMEEFDAELARL PEVFYASRYVDDIIVFSFYKIPDYKNYFSRILPNGLHLNERKCSEYTIEDTSTKHSEIEFLG YSFIIHHGLKNQRRHVVIRISEEKIKKIKRRIALAVKDYSMNSDAELLKKRIKYLTGNTLVN SNSNKTDALYSGIYYNYQHLTDKTQLKELDIFKNRMLFSSKGEVGRKILAAGHNLLTAPKKY SFLAGFEKRLLSSFKREDIIKINKVW* (SEQ ID NO: 171) B MKIKISKSDYKRVLLTDILPYEVPILFSNEGFYKLISENKVLPGTFSEGLKLDSYTIPYSYK IKKGLASSRSLGIIHPSTQLRICDFYDKYEHLMVHMCTKSPFSLRYPSKIGSYYYEKDFLKS RINLKDGLVQFHNHGFDSQETSSSSHFSYKKYPFIYKFYESYEFHRLERKFRKLLKLDIAKC FSHIYTHSVSWAVKSKEFSKVNRTYNSFEGCLDKLFQDANYGETNGIIIGPEFSRIFAEIIL QRVDLNVESHLNLEPGIVKDKSYATRRYVDDYFIFADDDETFKLTEFVLANELEKYKLYLNE SKKEFIERPFVTGATMAKNDIAEIIEDLYGSLIHTEKLDELTAMVNLNPDVKIQPENMNDLF PLKGVWNKKLHADKFIKRIKIAVRKNNTTFDLVSSYLLSAIKSKFFKVIRLLRMFDLSGKED ITYKFFSIFNEVIFFIYAMDFRVRQTYIISQVILEINSFANKQASDISEVIKKNTFDELLMC MKSMGNIHERPVELSNLLICMKGLGEQYKLNPDEFKDLLGISENECFYDLEYFSTCSMLHYI GDDVLYLKMKEDIVLAIQSLISGRNDIKKDTETFMLFLDMMTCPYLTVKHKRIIYRTYVEAN TGQKRFTNAVIDSEIDSLKNNVIFFNWSGDADLEHVLYKKELRTAYE* (SEQ ID NO: 172)  9 A MTSEIVLNLDFPEYKDDFCTDSIDEQDNELWQQQANKKLLSFLEVMGEEARRYKENNSRSTH PHYKTLSSYHHAIFISGARGAGKTVFMRNARFSWQKHYNKDLKRPKLYFIDVTDPTLLNIDD RFSEVIIASIYATVEKRMKQPDIAQNIKDNFINSLKTLSGALGKSKDYDEYRGIDRIQKYRS GIHLEKYFHQFLISSVELLDCDALVLPIDDVDMKIDNAFGVLDDIRCLLSCPLVLPLVSGDN DLYRFIAKSKFEELLNRKANSNYAKEGSEIAERLSEAYITKVFPSHVKIPLQPIDELLPYLY IHSNEDENKQHTSYSEFIKLVQQKFYFLCNGQERSTNWPQPRSAREVTQLIRSLPPSTLSKE DDSGTDLWQRFAVWAEERRDGLALTNVESYLFIKNAKAVEDLNLSNLIAFNPLLQKGKYPWA EKDFYKQQSQRRKELNAPETNSGILNTVFSEQRKDFILRSMPALELIMEPMYVTKTVAEKND NSALIAIYTHSDYYSQQQNRRCHIFFGRAFEIMFWSVLAKTENLPQEFYEKDKFKSLFGNIF KKVPFYSIFSMNPTKVVDEENDDGSEPDFSQKLDDSINELVEDIYIWATSNKLRAFKNKNLI PLMTCVFNKVFSMNVLRKNVQDRVKFRDEHLSDLAKRFEYMFINAEFTFIREGVVVNTNVAT GAAPARVRNLSEFNRYDKTLSRNMSGILSVKEDNGLTIVKESEGDIADLLFEIWHSPLFKLT TRTCYPIGKINSQNTAQENLSSDFNSFFENGINFELIKQYYWQTSNHDNIRTADVREWATSR LNEAIILFSWMKESKSIKAKIDGQSYEGRLFRGLQQALEGYEEV* (SEQ ID NO: 173) B MFNQDPYWLIPTLCLASDRIFYAQLRDHLGQKSSGERKKEKNGYILVQAAQDYQFYFGGRIR KEDVQNNALMWQIETGNENCLSMLDSLSAYFLTWRGNCFEVRRERLEPWLMICSVIDPAWII AYAYQQLIKQNVVCDSELISLLTEHQCPFAFPKGRGDISFADNHVHLNGHGYSSISMLNFID GNYKVKKGIKWPYRQEYTLFESGLLDKNDLPRWLSAYSSCLLKNVYNSFQQGKRSEVDFTCL KDAVETVLADEDKYYFLEVASLYDVVTLQQRVLYEAAQQKYHSHQRWLLYTCGIMLGTESED YANALANLIRISNILRNYMVVSAVGLGQFIDFFGFNYRRITKPADTNNRVHYDSSAGISREY RVSPDFVLGSGVMPDIYARQLFDFYCTQARKGVPEQGHIVVHFTRSFPDKKSTYDKLLTECR ERLRSQCDYFGRFLTSLTLQSIEYKNLSTDEDRSIDIRKLVRGYDVAGNENELQIEVFAPVL RVLRAAKFKGEGVNFKRLQRPFITVHAGEDYCHILSGLRAMDEAVEFCMLGEGDRIGHGLAL GVDIKLWANRQKRAYLTVGQHLDNLVWAYHQAVLLSQHIVEHIPVMHELRDKIHYWSHQLYS ETYTPDLLFKAWLLRRNWPDYKSIISDPANINEWVPDQHILVSTDETTAKARKIWERYLNSG LAENDVFNRIISVNCAPDTAQNFSMTFNENEDILSKGELLLYEAIQDFLIEKYSRLGLVIEA CPTSNIYIGRLEKYHEHPLFRWNPPDSQWIKPGGKFNRFGLRTGPLSVCINTDDSALMPTTI ENEHRLMRDCAIHFYGIGTWMADLWINSIRIKGIEIFKGNHLSQDLDNLI* (SEQ ID NO: 174) 10 A MIMSTPWLTPIVADSDHAEANAVSYEALTPTELDSDKAGCYISALNYAYEHPDIRNIAVTGP YGAGKSSVLKTWCKAHNGTLRVLTVSLADFDMQRHVDESNGDSSSDEGTKNTGSVEKSEYSE LQQILYKNKKHELPCSRIDRISDVTAGQILRSASFLTGTILLSGAALFFLAPDYVTTKLSLP GAFARYLLECPFGVRVSGAVASVMGSLCLLLNQLHRIGIFDRKVSLDKVDLLKGAVTTRASS PSLLNVYIDEIVYFFDSTKYDWIFEDLDRFNNGRIFVKLREINQIINNCLSDRKPVKFIYAV RDGIFNSAESRTKFFDFVMPVIPVMDNQNAYEHFVKKFKEEEINNNLSECISRIATFIPNMR VMHNITNEFRLYQNLVNSRENLAKLLAMIAYKNLCAEDYHGIDSKKGVLYHFIQSYLDHEIQ NELLHSANNELEDMAQSLVAITNEKLANRENLREELLMPYLSKNYSGALVFYTEGRQISLDD LIQDEDEFLMLLDKENIQVVTPYNRQNFLMINQRDTEKLKQQYEKRCHLIETKSVDNITRVK NNISSLESLRTEILSGTVADIAEKMTNEGFVAWIKKKEDTGVLTIQSEHEQIDFIFFLLSSG YLSTDYMSYRSIFIPGGLSETDNLFLKDVMSGKGPEKTFSFHLDNVNNIVERLKKLGVLQRD NAQHPAVIRWLIDNDPDTLKNNIMALLSQTGSQRVVSLLMLMQNDFTTYVRLRYLEIFMSDE HILNRLLAHLCASEERTPEQKFFVQEIAAHLLCLTEKSNIWQSVEINKRIGELIDSSPILIT AVPKGYGDAFFEVLKDNTLSVSYIPGDVGDEKCSVIRKTAGAGLFKYSVSNLKNVYLCLTQD KNEERMSFSLYPFHCLESLAISELTEILWTNIEDFILSVFIESEEIDRIPELLNSSEVSMTV VEQIIAKMDFCINNLDDIINRSECADNNASGRNIYSMLLQHDRIFPSFDNIEHLLHDTSINT SGELVQWVNEKHFEFEPSDIVINDTGIFNNFISELICSPVISEEALLKVLSNLNVVIIDVPE NIPLRNAELLCSEKKLAPTVNVFTVLFNALSENVDDINRMNTLLGNLIAQRPEIITQEPEDI FYIEGDFDEELASELFRHKLIGMNIKVAALRWLRDNKPGILDKSYLLSLDILAELSPWMGDD DLRLTLLKRCLVAGDAGKDALCVVLNSFADESYHGLLPHDRFRKIPHSVDLWEVAELISNLG FIQPPKMGSGRDEHKIVTTPVRYVRDVEFYD* (SEQ ID NO: 175) 11 A MFLNDQETSTDLLYYTAIASTVVRLVDETSDAPITIGVHGDWGAGKSSVLKMLEAACEKKDK THCIWFNGWTFEGFEDAKTVIIETIVEDLVASRPMSTKVAEAAKKVLRRIDWLKMAKKAGGL AFTAFTGIPTFDQIKGMYELASDFLSAPQDKLSAADFKAFAEKAGGFIKEADTDSNTLPKHI HAFREEFRALLDAAEEKLVVIVDDLDRCLPKTAIETLEAIRLFLFVEKTAFVIGADEAMIEY AVKDHFPDLPQSTGPVSYARNYLEKLIQVPFRIPALGTAETRIYTTLLLAENALGSEDDNFK ALLNKAREEMKRPWISRGLDREAVMAALNGKIPEWENALLFSLHVTPMLSSGTHGNPRQIKR FLNSMMLRQAIADERGFGSDIKRPVLAKIMLAERFYPSVYGKLVQLVSNHPEGKPEALAEFE ALVRGGKTAPKSRADSKENSSESEDVQNWLKIDWAIGWAKAEPALSGEDLRPYVFVTRDKHS TLSNLVVSSHLIPIMEKLLGPKIGMVKIKGDLEKLSPPDADELFEMLSDKLFQEDSFNRKPR GFDGLEYLVETQPHLQRRLIDFARRIPVKKAGGWLATRIAQSLVDPTLIEEYTKLIQEWAS DENLSLSKSAKATLQLSGYQH* (SEQ ID NO: 176) B MGTSKAYGGPVHGLIPDFVENPSPPTLPPVDPADDSTLDTPLIPPDSSGSGPLSTPKANFTR YSRSGSRSSLGKAVAGYVRNGVGGAGRASRRMGASRAAAGGLLGLISDYQQGGATQALERFN LGNLAGQSASTALLSLVEFLCPPGGSVDEGVARQAMLETIADMSDVGEENFDELTPDQLKEW IGFVVHSIEGRLMADIGKNGIKLPDDIDAIVSIQEDLHDFVDGATRTQLREELRNLTGLSGD AIDRKVEEIYTVAFELLAREGERLE* (SEQ ID NO: 177) C MSHHTLVARLGTDDNSDLQLSRQSTHLTEINFLKENGKLDFGLGQALNGLSDLGLTPMDVSV DLALLAATVTAADTRISRGHNAQDLWTREIALYIPVASPTLWNSQTGLLSRMLNFLTGDRWT IHFRSRPVIEFIGLIQRSSKERSVNPTSVCLFSGGLDSFIGAIDLLSNGGTPLLISFIYWDT TTSVYQQKCAQLLSERYGQSFSHVRARVGFEKTTIEGEDGENTLRGRSFMFFSLATMAADAL GGPVTINVPENGLISLNVPLDPLRVGALSTRTTHPFYMARFNELLGNLGISAHLENPYAYKT KGEMAIHCHDHAFLRQHAADTMSCSSPQSTRWNPALNEQQSTHCGRCVPCLIRRASLFTAFG TDDTIYRIPDLRSRVLDSSKPEGEHVRAFQFALARLARSPSRAKFDIHKPGPLSDYPDCLAE YEGVYLRGMKEVERLLSGVITRPLT* (SEQ ID NO: 178) D MKLAGQKPAPQWVDFHCHLDLYPNHSALIRECDISRVATLAVTTTPKAWMRNRELTSDSPYV RVALGLHPQLIAEREHEIALLEHYLPSARYVGEIGLDASPRFYRSFEAQERIFSRILNACFE QGDKELSIHSVRAAAKVLGHLENTRLTENCKAVLHWFTGSISEARRAVELGCYFSINEEMLR SPKHRKLVSFLPFERILTETDGPFVFHEEKAIHPRDVQRTVHEIAQIHHVSDTDAAMRILYN LRSLVTNSSHSENSS* (SEQ ID NO: 179) 12 A MSTVDTSTAEELNQGGSDFILTSLEAMRKKLLDLTSRNRLLNFPITQKGSSLRIVDELPEQL YETLCSEIPMEFAPVPDPTRAQLLEHGYLKVGPDGKDIQLRAHPSAKDWAHVLGIRTDFDLP DSHKTVVSDSDRELLEKAHQFELQYAQGQNGKLTGIRSEYVNQGIALSALKEACCLAGYEGL EDFERQAKAGNEISISSSNPSHDDNRIQALLYPNELEACLRAIYGKAQTALEESGANILYLA LGFLEWYESDSSEKARYAPLFTIPVRCERGKLDPKDGLYKFQLYYTGEDILPNLSLKEKLQA DFGLALPLFNEEETPESYFASVKKVVEQHKPKWSVKRYGALSLLNFGKMMMYLDLDPARWPC DKRNILSHEVIRRFFTSQSCGQENSGLPGGFGQHEYCIDSYPDIHDKVPLIDDADSSQHSAL IDAIRGQNLVIEGPPGSGKSQTITNLIAAALLNGKKVLFVAEKMAALEVVKRRLDRAGLGQF CLELHSHKTHKRKVLDDINARLVSQATMPTMEEIDAQILRYEDLKQQLNEYAALINNQWAQT GKTIHQILSGATRYRHKLDIDATALHIENLSGKQLDKVTQLRLRDQIVEFSRIYKEVREQVG ANAEIYEHPWSGVNNTQIQLFDSARTVDLLQTWQTSIIDFQHSYQEYVDKWALEGESLNTLQ YIEQLVEDQSNLPVLCGSEHFPALSELDSPDAIARVRHYLDRFELLQGHYVALSQVIEPQKL RLLEQGQSCDFPREELEKYGAAEDFTLRDLVRWLESIQSIHDELSSIYAQLNDFKNALPDGI ASYIDDSQAGLLFCSELLSILGALPTELIRVRDPLFDDDDIDAVLRDLMCQIETLRPLRDGL STLYQLDQLPSQEMLAHAVAVIQQGGLFAWFKSDWRSAKALLMAQSRKPDTKFAELKRCSAD LLKYSELLQRFEQSDFGNQLGNAFRGLDTDCEQLMLLRDWYKKVRACYGIGFGKRVAIGSGL FNLDGEIIKGVHLIEKSQISSRLMTLVKRVEHEAKLLPRISSLLEEHASWLGEQGVLMQSYR QVRNTLIALQGWFINPDISLEQMTHSSEILQNINDLQISLENDSLQLGAFLQLTPACGAYKN KQLTLDTINDTLNFAEQLVDKINCVSLATQIRHLASGSDYDLLCRDGGEIVSKWNEQIKNAE LYALETKLERSQWLKSTDGSLNTLIERNERAIQQPRWLNGWVNFIRCYEQMHENGLQRIWSA VLAGSLPIEKVELGLALAIHDQLAREVIHIHPELMRVSGSQRNALQKSFKEYDKKLIELQRQ RIAAKIACRNIPEGNSGGKKSEYTELALIKNELGKKTRHIPIRQLVNRACNALVAIKPCFMM GPMSAAHYLEPGRMEFDLVVMDEASQVKPEDALGVIARGKQLVVVGDPKQLPPTSFFDRSAD GEDDDDAAALSDTDSILDAALPLFPMRRLRWHYRSRHEKLIAYSNRHFYNSDLVTFPSPNAE SPEYGIKFTYVSKGRFSNQHNIEEAQAVAEAVLHHAHHRPGESLGVVAMSSKQRDQIERAID ELRRNRPEFNDAIDGLHAMEEPLFVKNLENVQGDERDVIFISFTYGPSEHGGKVYQRFGPIN SDVGWRRLNVLFTRSKKRMHVFSSMRSEDVLTSETSKLGVISLKGFLQFAESGKLDSLTTHT GRAPDSDFEVAVMEALNHAGFECEPQVGVAGFFIDLAVKDPGCPGRYLMGIECDGAAYHSAK SARDRDRLRQEVLERLGWRISRIWSTDWFSNPDEVLSPIIRKLHELKTLAPDVVVPSYEYVE TIESSAEVASDSIDSLMPNLGLKEQLKYFATHVIEVELPNVDADRRLLRPAMLEALLEHQPL SRSEFVERIPHYLRQATDVYEAQRFLDRVLALIDGAEAEANDAAFESELA* (SEQ ID NO: 180) 13 A MAGASIDAIGVINQIKDNLTDRYEDGFPVLKEIIQNADDAGANELTIGWSKGFCNAENELLN APALFFINDAPLAEEHRDAILSIAQSSKATSKASVGKFGLGMKSLFHMGEAFFFMSDQWRIE HWASDVFNPWDKYRDAWNEFGENDKCQIATKLKGFLSTDKPWFVVWVPLRTKALAKAHNNYI IINNFSGDEKLPSFFNQAHLSEKTSEILPQLKNLKDIGFFCESDKGVFDEVTSIQLHEDSSR SSFCGEPRLNNGDSFAVFSGKIYSNSNEERCALDYAGCERVIFDERLNQLKDENMGWPKSYQ FDKKANLPVEALDKAEQHASVTFSRFKTKGQAYLKANWAVFLPLSQTKELVAVPIEGEYDYN LYLHGYFFVDAGRKGLHGHDNLGFSTSLEHVKNDEKKLREVWNIILASEGTFNLVLPALNEF CQKLRLPHQIKTVLTKALYDLLIERYRKEVSKSANWIINIDDKGAAWSLLDKNAQCLPIPRP ENSDYSRIWSTLPGLSKLLDKKSLYEATGNEFLTEQNQRDSWNITLLEEALGSGVVNAFYRS INIEYLLQFLQLAKEQCTTEDFDNLIIPQFREVLSTHKLAELSLNKALNTQVFELVSAPKTV VLPIDKDDQSIWELVCKIIPAKLLLPKFLSTHNKPIHDNVTEEELFALLTLVDSYIKKQGER LSSDESSACERLITFVIDCVNASEYIQKSDFYQKSGHLKLLKVEALGSQQSTKYRSLNELIV LKEKYQLFLRGGERNFGKGLGKELVAVVPGLELCFISKDFEIGGLYEGLTACSEAACLRLLS TYPNLGSNSARLALTKVFSAELSTDEEKRGFRYLIHGSKEDDLRQTLWKPNRATNPVWMKIW RMCQPEDFPGWCELDEEFSNALTNQYEHFIGVKEQFYKDIISEYRTILPECNFDNFDDWEVE QLLADIGSQGDERLWKALPVHRTAHNTRVAITTKCLMEGSATVPSEWDVHLIQHSAIAEVAA CQHKWVNHGLPKELIEIALTQSSPAQYSAFILDQLCAIRIANEGIEHELEGKINNTKWLRLA SGTEVSPEAILSFSANELPESAKFCELKESNIYMFSQLDGNMFEHDQARGFLREWVAKSNSS VCSCILAEAAQHQSYVVGNFSNISAQVLEQISCIPPLMQLSAGWGLLVELYQSQYLSVNENK QVMLCKETEPQSLWWALERIADDDIFIGQSKELRKAFLEALCNTEGGVDYLPKLRFRNENGS YVSGNTLVSNVAQVVADNLISPQEYAVIESYCSKSALTNGNTSKIIELAGDNAPVLSDYFDD WEGMVPPDAIATFIALFAKSGGVEKLVNNYLRQSTLESIKQGYEEKWNSGKGRRGEFSHYPY SSLYKSVDFELAICAENAAYMTSIFGERIQVKLQKTPDSLLVHQANKSKTKRIELRRVDTKN VSKDQLLRMLAKAVETIFTDVFGAECIRFESEFLKRFGASEQVDIQITRQIVLENVVPLLER LQVREEGLCDLRSDYKREQRVLASSDPSVLQDRSRLNSVLTKIKETLENNEKVQSLVLESVR KEMSKHFQYSPFSVPFELFQNADDALCELIEMQGDSTNVLTRFDVVSGSDGTLNFYHWGREV NYCKSSYVAGKNQFDRDLEKMVSLNVSDKSDGKTGKFGLGFKSSLLLTDIPRLVSGDICAEI HAGVLPSVPSKPVMTELNQNVDEYKIGNRKPTLIQLPKCDKKRADLKLVLGRFKSNAGILTV FSRQIREINIDEQRFGWSGQALHNIPEVLVGEVKLPTNTSEESNVILRSNRVLIINTESGQF LFALDSNGVVSLSNRKNLSSFWVLNPIDEDLKLGFCINAPFAVDIGRSQLAVDNGDNIDLSS SLGKALSAVLVKMFAASSNNWNEFAEEVGLGQSSTFIKFWASLWDVITAHWPARLGETNSKA ELKQMFTVEDGLLAFYQRCAALPRNLGVKEDSLVQLKNVDTGANKPLTKAFNTLGNHPILQR LYKDQQLVGHDTFEFLKSIDFRPNNGALTKLELIDLIGQDFPHNEVNHDRASFYGRLFGKNF EKLMSNFEMTVTEKKVLEERFSELKFLNKTGVYVTASKLIVEGSPERDLLSKFAPDSAKLSE KYDQASMDLVSFIRRDVSYDIHSWAKQIRSEESNRGGKQEGLCSFLVEGGYLASSLLRKLQT DHPAFLTKGRFDPSVLTEKWRWSSSKASAFISIWIDTEEDKARFIVRQAQKEFIPNVTNGEQ ILENITNWWNQCRNQSLIDYDKQLYAQPMPWKAMTEDFELETLEVKKGWLKLFYLGSCQTLG FNNDVANRNVVSWFEDKGWWDKLAVANGPSPEVWKELMEEYLQTARVDERYRVWIQVLPLYR FATKLKDYVALFMNASFIDNLDDLLKPNSSNKLSGSGIQVSELKGTLGIGINFILRELQRHQ VLEREYCEDIQKYAFVLPARLRKLLKKMGAGLSFDAEPENSERAYDYFVSALNSETHPLLKD FDIPFRVLLADKQAFERCFNFALDEQFEEVYG* (SEQ ID NO: 181) B MDNIIRVIHPKFGVGTVEFEKAETSLVRFEHGFEECLKSELEAVADLKSDLVSGQSVAASEL ALKTLAHSLKSVNENWSVFSKSNINLLPHQLWVCHRVLRQWPTNQLIADDVGLGKTIEAGLI LWPLIERKRVKRLLILTPAPLVEQWHQRMLDMFDIRLSMYAPENDTSRVNYWDSNNMVVASL PTLRNDKNGRLERMLNAEPWDMLIVDEAHHLNSTEDKGGTLGFRFIQTLIENDKFESKLFFT ATPHRGKEHGFFSLLQLLRPDLFNVKQMDEREMRPFVKDVLIRNNKQFVTDMNGERLFKPLS VSSRTYSYSEQEQFIFYDLLTKFIVSGQAYASSLNSRDQRAVMLVLTAMQKLASSSIAAIER ALKGRIEKHKLGKQRLQDIEVQQAALLEKREESESQSESEIYSDELAQLELEFIETTTRVQL MDDELPRIMELLSACQKVGSETRILTILDILETEFKDRTVVFFTEYKATQALLMGALNKKYG EGCVTFINGENRLLNVENGSGVCVDYVTDRYNAAKRFNEGKVRFIISTEAGGEGIDLQQNCF SMIHVDLPWNPMRLHQRVGRLNRYGQVKNVEVITLRNPDTVESRIWDLLNTKIDLIMRSVGG AMDEPENLMELILGMADSTLFNELFTEAANRKNSESLSAWFDHKTKTFGGESWQKVKDLIGR AEKFDYQDLEAVPRLDLGDLKPFFTQMLSFNQRRCKYDENGGLSFLTPHAWLGQFGTRRSYE KLHFDRKAKQLDSEADIIGFGHPMFSKAVNQGEQIPGSYAFLNGIEKDLVVFKVQDQVTGTD ASVKVSIVGLVLDDNGDCELVKDEDLIGYLNEYLKISNDVDSKRTPEDLVSVIQTANDYLME NVSSIGLPFRLPNSEPLTVFYKASN* (SEQ ID NO: 182) 14 A MVAIKMYPAKDGDAFLIICDEEKSAFLIDGGYAETFRQHILPDLRELSFNGYRLRLVMATHI DSDHIGGLVDFFLVNGHAAEPAVITVDRVWHNSLRAMTRPENNAQKVDSREITDFLRRRYHV EADKAKPHEISARQGSSLAASLLAGDYHWNEGKGYQCICTGTSIPNLMCDNSLTILSPSKER ISALCLWWRRQLASLGFSGRSSSSEAFDDAFEFFCKREASQVPLPHVINARTPLLERDYARD TSPTNGSSIAFSLVLNKKRILMLGDAWAEEWTSLGASGASHHFDIIKISHHGSIRNTSPNLL KIIDAPVYLISTDGKKHARHPNLAVLKAIVDRPAAFTRTLYFNYANSASAFMKNYLSASGAQ FRIIEGSTDWITL* (SEQ ID NO: 183) B MRYAATETEIRNATVLIECAGYTGSGTLIAADKVLTAAHCVVSDDPETPITVTFFGADEDVC VNATISEIDTSCDACLLTLSDSVDIPPITLMTQPEREGSQWKAFGYPASRNGPSHYLHGTIS QILPRLFHGVDMDLSVSADCVLEEYSGVSGAAILSENKCIAMVRIRMDGGLGAVSLDKLSGL LIRNGLIPDDIASLPDSSLSGEVVLNRTEFRDNFESFVLEHKGRAVLLEGSPGSGKTTFCRH YQPRSEQLAVAGVYEFTPEDGAGTTFKILPEVFADWLHNQVSILLSGRPARREETEKINLTQ KVSDLLHTFSDYWKHKGKYGVIFIDAVNEASECGDEAVSRFTALLPVTLPENVKLVFTAPSL SSAGKAFRHWLTPQDCISLTLLSHREVLQLTARELKTSAPSLSLLTRVSDIAQGHPLYLRYI LGYLKANPDQVNLEIFPVFSGSIETYYERLWQGLVKDESAVNLLGILSRMRWGIDISSLIPV LTPQEQTVFVPTLDRIQHLLLNDKSSALCHQSFAAFINSKTAVINSLLHGRLADFCLTSGES YGLINRAYHLLLASHDRHPEAALVCTQEWADACIVKGAQPDELIHDIRQTLKNTLIRADAVA SIRLLLLFQRMTFRHHFLFLQSAYHSGLALAALGRPDEALEQLIPSGSLVVDAVDAIVSAQT LARMGNSEHALKLLEKVKSAVDQEFERNPVNLSDFIGLSLAWVRAELMAGVVDGHGRTREVV EYLYGCGQVVRDNFEQSAHSKSAYTRAFYPLQAEMEAVNIAFNDRSVSLRTVKEKFGSLPEN ILDLMLSSVMRAHDIILQHQLPMPQHALQPVWYNLDRLLHTDIPYSNEIRFNSLSSLIFFNA PSALIIRMAGSFEVVPEITLLNEENEIAADSIDVSEQGQLWLVSAYLNETQPCPDIKHPSQG CSEWLKTLTEAIFWYSGQARRAVIDGNDEKKELLLVKVQNDILPALSYSLEERMAWPNSWAM PEQIIPMIYEELVNMFGACWPDKISVTTDFILAHTPQQCGLYSEGYTIRLLNRVIQTLLNEH RFLGQSDTTFQLLETLFIAFVSAFTENRQELVPELLNIIPAYISLDAPQLAQDTYTELLGVS MGPDWYKEDQFALMTTMLRVIPQHTDTNTTLSQVAGFLEHASGEMTFRRYVRQEKSQFIGEL IRRGNYAHGFNYYRQQSCGSHEEMLTQLSHPAADSPHPLKGMRFPGGALDEEHAVECIVSEL RNRVDWRLRWGLLEIFSFGSIGNLAVPFAELINEFSADTEDLNEIPKRLHNILHGDVPFSEH RNFIKNFTEHLADNHKPLFAEFISLLSEDTSDNDVKPPPSGDANQKGTDTSDDVAMQPGLFG KRSAINRAEACMENARKAAARRNTVRASELAVESLHIIQDGDWSVWRKNNHLAELTRTYILD NSADAGSVIRAYASLVEKERYAPAWVIASHLTEIAASKFSDQEAQAINQIVLEHNRHMLGNT EADAAHFSFLNEPDTSDAGEETLYFLFWLLEHPLKFRRERALEVLKWLASDDDKILGQCVTE ALVSDIASRAEALMALTDWVSARSPQRIWDFIVKERSLFEWLEGTTALSQVHLLERVTSRAG FVLRNEIAAFERPRKLLLTSEASGQRNIPENLPTWVQSLSQTLAVMEKQGIDIPALLTLLEK RVLQQSGLADITVAFELEBCLLARGFTVNRTPSHHRWETMVRFALNQIIHEAAAQDELQNIE PLLRAWNPASEECVEPWEVCNRAKQIICAVMEGRHQQASGIEDGFFLHYLDEVEVSREGQTH LVEISAVLTTAHNGHESLRPGAESEFNATQTPDERTLSVHLTCQRVKMQPLLFGGATPAAVS KKFMQMTGTLPSDFIRRQWRSGRSLSKNRWGEPISRGSLLLMKRTTTLPPGLGLAWYVTVDG KLMNIFSYAPRRR* (SEQ ID NO: 184) C MKYSMETPKTREEFEARCFHLLNAIKLGRYHGIPGEGNKEQVPFLPNGRVDLANIDTMTRLS MNSLYDFHYNRDNYPQFDLSENDENEEATD* (SEQ ID NO: 185) 15 A MSDSLLVRTSRDGDQFHYLWAARRALRLLEPQSTLVALTIEGASTTEMGSQPWEDGEELTDI AEYYGSNELATATTVRYMQLKHSTMHSDTPFPPSGLQKTIEGFATRYKALIQKIPVETLRTK LEFWFVTNRPVSSSFSEAINDAANQHVTRHPHDLAKLEKFTGLQGAELSIFCQLLHIEGQQD DLWSQRNILLRESAGYLPDLDTEAPLKLKELVNRKALTESAANPSITRMDVLRALGVDETDL FPAPCRIERIENSVSRTQEATLVQRVVEAFGAPVIIHADAGVGKSIFSTHIEEHLPTGSVSI LYDCFGLGQYRNASSYRHHHRTALVQMANEMASRGLCHPLIPNAGTGISQYMRAFLHRLSQS ISILRASEPLAVLCIIIDAADNAQMAAEEIGETRSFIKDLIREKLPDGVCLVALCRPYRREL LDPPPEALTLSLQTFNRDETAAHLHQKFPDASESDVDEFHRLSSCNPRVQALSLSQNLPLND TLRLLGPNPKTVEDTIGEVLEKSIARLRDTAGISERAQIDTICSALAILRPLIPLSVLSAIS GVAGSAIKSFALDLGRPLIVSGETIQFFDEPAETWFQRRFRPSAADLHQFITKLRPLTKDSS YAASVLPALMLEGNQLSELIELAISSQALPETSAVERRDIELQRLQFALKAALRTGRYQDAA KLALKAGGECAGDNRQRVLLRDNIDLAAKFVGSNGVQELVSRNAFPDTGWPGSRNAYYAAIL SEYPELSGEARSRLRLTMEWLTNWSQLPDDERSRQNVTDQDRAVMLIACLNIHGAEAAAREL RRWRPRKLSFDAGKIVAMQLLAHARYDELDQLAIAAGNDISLVMGIVLEARKLHRPVAEQAI RRTWRLLKSQRVSIKDRNHANNQTIAAITGMVEMALIQSVCTESESIQLLDRYLPKVPPYAL TSEYSKERVAYVRAYALQANLMGSQLALSDLASTEVKKELMAEKRHGESDDLRQLKQYSGVL IPWYNLWAKVILGKTRKADLESELSDTQKESTAIKGHSYSEHSLSSNEIANVWFDILEAGNV SKDDVENIIKWSQHKGNRVFTPTLHRFSSVCAEISGLGELSYHFAELALSLWRDEHSDAQIK ADGYIDLSRSLISLDEPEAKEYFNQAIEVTNKLGDENLSRWEAILDLAEYVAGKTQVPPETS YKLARCAELTREYVDRDKHFAWSDTVEILAELCPSSALAIISRWRDRTFGNHRSILAWTIEH LVKKNKINALDALPLITFENDWHKCDLLDSVLSSCTDDKDKIMAFEVVYHYTKFNVQNIQNL KKLDAISTSLGIEHTELKERISGLQHTETVSKKSSLSSNDNEQGHDQEWESIFKDCDLSSID GISAAYEKFRNVPEFYSKETFIKKAISRVKTGKECSFITAIGAIFHWGLYDFKYILESIPDE WTSRLSIKTTLAGLIKEYCQRFCMRIRKSRVYEIFPFSLASRLSGISEKEIFGITLEAIAES PEPANSDRLFSLPGLLVSKLESNEALDVLSYALDLFDEVLKDEDGDGPWNEKLSPPTHVEDS LAGYIWARLGSPEAEMRWQAAHAVLALCRMSRTCVIQGIFQHAINATTLPFCDRNLPFYTLH AQLWLMIAAARVALDDGKSLIPNIGYFYHYATTDQPHVLIRHFAARTLLALHDSDLISIPAQ EENKLRNINQSTTLPVLDKVEDHRGEDSYTFGIDFGPYWLKPLGRCFGVSQKQLEPEMLRII RDVLGFKGSRNWDEDERNKRRYYQDRDNHHSHGSYPRVDDYHFYLSYHAMFMTAGQLLATKP LVGSDYDDVEDVFQDWLRRHDISRNDHRWLADRRDIPPKERSSWLNSSSDNRDEWLASISEN VFNETLCPSPGLLTLWGRWSDVCSDRKESIIVHSALVSPERSLSLLRALQTTKNVYDYKIPD AGDNLEIDHAHYQLKGWIKDIAEYCGEDEFDPWAGNVRFPIPEPASFIIDAMKLTTDKDHRW VTSPSDVEPAMISSIWGHLSGKNDEEKSHGYRLCASIHFIKSALETFNMDLILEVDVDRYSR NSRYERNNENELDNIPSSTRLFLFRHDGTIHTLYGNYRNGEKTS* (SEQ ID NO: 186) B MAHHIAELIYDAEHCTDDIVRTAKQAEIRDSIWSFWSNRYELPIGSRPFQELEPILRTLKGL DPENEQPRFFSPYRDLINVEKETSEVQKWLTAAKDIDSAAKILIDYCLSLAAENAIDKSQEW VELAQKAGLNKDVDLLEIRIFQLRGTPANTDNPNNAQRRILEKRQKRLEAFLLLGSQLNEQL KSQLEALPAIEDEPTDDDEDF* (SEQ ID NO: 187) 16 A MEPISITVATYVATKLIDQFISQEGYGCIKKALFPQKRYVDRLYQLIEETAIEFEETYPVES GAIPFYHSEPLFEMLNEHIFFKEFPDKEILLDKFKEYPSITPPTQQQLSLFYEMLSLKINNC SKLKKLHIEETYKEKIFDINEELIQVKLILRSIDEKLTFHLSDDWLNEKNSQAIADLGGRYT PELNVKLEIAEIFDGLGRTNDFSKIFYSHIDSFLVAGKKLHSCDVISSELFEINQSLKEISD IYQEINFSKLDEIPINKFNNYVSSCQTAIGGAVSILWELREKSEQVGETKHYSDKYSSTLRM LREFDYACNELRIFINSTTVKLANNPFLLLEGKAGIGKSHLLADVIKNRIASGYPSLLILGQ QLTSDESPWSQIFKRLQLKITSREFLEKLNLYGKKTGKRVLVFIDAINEGNGNKFWNDNINS FVDEIRCFEWLGLIMSVRTTYRNVTISHENVVRNNFEIHEHIGFQNVELEAVSLFYDYYNIE RPSSPNLNPEFKNPLFLKLLCEGIKKNGLTKVPVGFNGISNIFNFLVEGVNKSLASPKKYAF DPSFPLVKDALNEIIKFKLEIGRNSISLKDAHSVVQSVVNDYVADKTFLSALIDEGLLTKGI VRNDDNSTEEVVYVAFERFDDHLTVNFLLNDVENIESEFKPDGRLKKYFHDECDFYIKSGIV EALSIQLPERYEKELYEFLPEFSNNLKLLEAFIDSLIWRDIKAIDFEKIRPFINEHVFKFKD SFDHFLEAVISISGLVGHPFNANFLHDWLKDYSLANRDSFWTTELKYKYSEDSAFRHLIDWA WARTDKSFVSDESIELVATSLCWFLTSSNRELRDCSTKALVSLLEPRIPVLRKIIDKFYGVN DPYVWERIFAVALGCTLRTDNIKELKYLAETVYQKVFCSKYVYPNILLRDYAREIIEFANHL GLELESIELSKTRPPYNSIWPDKIPSKEELESLYDKEPYRELWSSIMEDGDFSRYTIGTNYN HSDWSGCKFNETPVDRKQWKTFKCKLTDQQKDLYDATDPFIYDDKCEGIKFGRVVGRKAQEE IKASKKLFKNSLSYDLLSEFENEIEPYLDHNNNLLETDKHFDLRLAQQFIFNRVIELGWDPE KHGNFDQQIGTGRGRREAFQERIGKKYQWIAYYEYMARLADNFTRFEGYGDERKENPYQGPW EPYVRDIDPTILLKETGTKPGSNKEMWWLNDEVFDWTCSNEDWVKSSTTITNSYAFIEVKDD NGDEWIVLESHPSWKEPKIIGNDDWGHPRKEVWYQIRSYIVKVEEFENFRCWAIAQDFMGRW MPECTDRYQLFNREYYWSEAFKSFKSDYYGGSDWTSVTDRESGAKIADVSVTSINYLWEEEF DKSKIETLNFLKPSNLIFEKMGLKSGEVEGSFNDENGTMVCFAAEAVYASKPHLLVKKEPFL TMLRDNGFEIVWTLLGEKGVIGGSLISSHHYGRQEFSGAFYYEDSQLTGSHKTSFTR* (SEQ ID NO: 188) 17 A MVKPNWDNFKAKFSENPQGNFEWFCYLLFCQEFKMPAGIFRYKNQSGIETNPITKDNEIIGW QSKFYDTKLSDNKADLIEMIEKSKKAYPGLSKIIFYTNQEWGQGRKSHEPEGDKNADNYLET VGNSNDPKIKIEVDQKAYESGIEIVWRVASFFESPFVIVENEKIAKHFFSLNESIFDLLEEK RKHTENVLYEIQTNIEFKDRSIEIDRRHCIELLHENLVQKKIVIVSGEGGVGKTAVIKKIYE AEKQYTPFYVFKASEFKKDSINELFGAHGLDDFSNAHQDELRKVIVVDSAEKLLELTNIDPF KEFLTVLIKDKWQVVFTTRNNYLADLNYAFIDIYKITPGNLVIKNLERGELIELSDNNGFSL PQDVRLLELIKNPFYLSEYLRFYTGESIDYVSFKEKLWNKIIVKNKPSREQCFLATAFQRAS EGQFFVSPACDTGILDELVKDGIVGYEAAGYFITHDIYEEWALEKKISVDYIRKANNNEFFE KIGESLPVRRSFRNWISERLLLDDQSIKPFIAEIVCGEGISNFWKDELWVAVLLSDNSSIFF NYFKRYLLSSDQNLLKRLTFLLRLACKDVDYDLLKQLGVSNSDLLSIKYVLTKPKGTGWQSV IQFIYENLDEIGIRNINFILPVIQEWNQRNKVGETTRLSSLIALKYYQWTIDEDVYLSGRDN EKNILHTILHGAAMIKPEMEEVLVKVLKNRWKEHGTPYFDLMTLILTDLDSYPVWASLPEYV LQLADLFWYRPLKETGERYFISMDIEDEFGLFRSHHDYYPESPYQTPIYWLLQSQFKKTIDF ILDFTNKTTICFAHSHFAKNEEEVDVFIEEGKFIKQYICNRLWCSYRGTQVSTYLLSSIHMA LEKFFLENFKNADSKVLESWLLFLLRNTKSASISAVVTSIVLAFPEKTFNVAKVLFQTKDFF RFDMNRMVLDRTHKSSLISLRDGFGGTDYRNSLHEEDRIKACDDVHRNTYLENLALHYQIFR SENVTEKDAIERQQVLWDIFDKYYNQLPDEAQETEADKTWRLCLARMDRRKMKITTKEKDEG IEISFNPEIDPKLKQYSEEAIKKNSEHMKYVTLKLWASYKREKDERYKNYGMYEDNPQIALQ ETKEIIKKLNEEGGEDFRLLNGNIPADVCSVLLLDYFNQLNNEEREYCKDIVLAYSKLPLKE GYNYQVQDGTTSAISALPVIYHNYPMERETIKTILLLTLFNDHSIGMAGGRYSVFPSMVIHK LWLDYFDDMQSLLFGFLILKPKYVILSRKIIHESYRQVDYDIKKININKVFLNNYKHCISNV IDNKISIDDLGSMDKVLHILNTAFQLIPVDTVNIEHKKLVSLIVKRFSTSLLSSVREDRVDY ALRQSFLERFAYFILHAPVSDIPDYIKPFLDGFNGSEPISELFKKFILVEDRLNTYAKFWKV WDLFFDKVVTLCKDGDRYWYVDKIIKSYLFAESPWKENSNGWHTFKDSNSQFFCDVSRTMGH CPSTLYSLAKSLNNIASCYLQGITWLSEILSVNKKLWEKKLENDTVYYLECLVRRYINNERE RIRRTKQLKQEVLVILDFLVEKGSVVGYMSRENIL* (SEQ ID NO: 189) 18 A MQVQHHTEPNLKNEIVALFKASQLIPFFGSGFTRDIRAKNGKVPDAIKFTELIRNLAAEKEG LTQTEIDEILRISQLKKAFGLLNMEEYTPKRKSKALLGNIFSECKLSDHEKTKIINLDWPHI FTFNIDDAIENVNRKYKELHPNRAVQREFISANKCLFKIHGDITEFIKYEDQNLIFTWREYA HSIEENKSMLSFLSEEAKNSAFLFIGCSLDGELDLMHLSRSTPFKKSIYLKKGYLNLEEKIA LSEYGIEKVITFDTYDQIYQWLNNTLQNVERKSPTRSFELDDSKLMKEEAINLFANGGPVTK IVDNKRILRNSITFSQRDVCDDAIKALRNHDYILITGRRFSGKSVLLFQIIEAKKEYNASYY SSTDTFDPSIKNSLIKFENHIFVFDSNFFNAQSIDEILTTRVHPSNKVVLCSSFGDAELYRF KLKDKKILHTEIQIKNNLINEEGNYLNDKLSFEGLPLYKSSETLLNFAYRYYSEYKNRLSGS NLFNKQFDEDSMFVLILIAAFNKATYGHINSHNKYFDIQNFISQNDRLFELESTNTDPSGVI ICNSPSWLLRVISEYIDKNPASYKTVSDLIISLASKGFLAASRNLISFDKLNELGNGKNVHK FIRGIYKEIAHTYREDMHYWLQRAKSELISAHTIDDLVEGMSYASKVRLDSAEFKNQTYYSA TLVLAQLSARALSINNDKIYALSFFESSLESIRNYNNNSRHINKMMDKNDGGFRYAIQYLKD NPLIELLPRKDEVNELINFYESRKK* (SEQ ID NO: 190) 19 A MQFITNGPDIPDELLQAHEEGRVVFFCGAGISYPAGLPGFKGLVELIYQRNGTTLSEIEREV FERGQFDGTLDLLERRLPGQRIAVRRALEKALKPKLRRRGAIDTQAALLRLARSREGALRLV TTNFDRLFHVAAKRTGQAFQAYVAPMLPIPKNSRWDGLVYLHGLLPEKADDTALNRLVVTSG DFGLAYLTERWAARFVSELFRNYVVCFVGYSINDPVLRYMMDALAADRRLGEVTPQVWALGE CEPGQEHRKAIEWEAKGVTPILYTVPAGSTDHSVLHQTLHAWADTYRDGIQGKKAIWKHALA RPQDSTRQDDFVGRMLWALSDKSGLPAKRFAELNPAPPLDWLLKAFSDERFKYSDLPRFCVS PHVEIDPKLRFSLVQRPAPYELAPQMSLVSGCVSASKWDDVMSHIARWLVRYLGDPRLIIWI AERGGQIHDRWMFLIESELDRLAALMRERKTSELDEILLHSPLAIPGPPMSTLWRLLLSGRV KSPLQNLDLYRWQNRLKNEGLTTTLRLELRGLLSPKVMLRRPFRYSEDDSSSTDEPLRIKQL VDWELVLTADYVRSTLFDLADESWKSSLPYLLEDFQQLLRDALDLLRELGESDDRHDRSHWD LPSITPHWQNRGFRDWVSLIELLRDSWLAVRAKDSDQASRIAQNWFELPYPTFKRLALFAAS QDNCIPPERWVNWLLEDGSWWLWATDTRREVFRLFVLQGRHLTGIAQERLETAILAGPPREM YEDNLEADRWHYLVAHSVWLCLAKLRGAGLVLGESAATRLTEISTAYPKWQLATNERDEFSF IWMSGTGDPGFEESIDVDIAPRKWQELVQWLAKPMPERLPFYEDTWSDVCRTRFFHSLYALR KLSQDDVWPVGRWREALQTWAEPGMILRSWRYAAPLVLDMPDAVLQEISHAVTWWMEEASKT ILCHEETLLALCRRVLMIETSPESSTIRNGIETYDPVSTAINHPIGHVTQSLITLWFKQNPN DNDLLPVELKTLFTKLCNVQIELFRHGRVLLGSRLIAFFRVDRPWTEQYLLPLFAWSNPVEA KAVWEGFLWSPRLYEPLLIAFKSDFLESANHYSDLGEHRQQFAIFLTYAALGPTEGYTVEEF RTAISALPQEGLEVAAQALYQALEGAGDQREEYWKNRVQPFWQQVWPKSRNLATPRISESLT RMVIAARGEFPAALAVVQDWLQPLEHLSYDVRLLLESDICSRYPADALSLLNAVTAEQHWGP RELGQCLLQIVQAAPQLEQDVRYQRLNEYSRRRSV* (SEQ ID NO: 191) 20 A MTNKNKIKPLLNNISARLWDGRAAILIGAGFSRNAKPLTSKARKFPMWNDLGDIFYESVYCK KNDNRYSNVLKLGDEVQAAFGRATLDKLIMDHVPDKEYEPSKLHVSLLSLPWIDVFTTNYDT LLERASVNVDSRKYDIVLNKNDLMNAERPRIIKLHGSFPSERPFIVTEEDYRKYPLENSPFV NTVQQSLIENTLCLIGFSGDDPNFLNWIGWIRDNLGTENSPKIYLIGLFSFNEAQRKLLEKR NISIVDLSFLGDFGKDHYLAHQRFIQFLYESKNRDNLIEWPIETNYDRIVFNDGIELKTEKI KKCILEWAQSRQSYPNWLILPESNRSNLWQNTIDWLSVANYDVAWDGSDDLDFGYEITWRLN KALLPIFNDTSEFLFKLIEKYEINYVSGINNKIIDFDEKYSHITLSLMRFCRQENLIDKWKN LNDLLIQNLDRLTPEVKSDYYYENILFSYFNLNFDEARNKLSNWETNKLLPHHEIKRAGLLA EFGMLDEAINLLEETLSTIRRNSLLSSRNIDYSSESQEAYGIYILRMFKRSLRLDSKDDDYS SEYNSRLATLSQYRSDPENEIKYLEIKLESLPGTFKNTNDTDFDLNKRTVTTYLGGSPTEVR SLDAFSFFLLAEELGLPFHIPGMNIFSGIVENAARHIYQYSPEWAIFSIFRTFNKDKAKSLF NRNRISSLERKKVEDLFDGYYKKYEQIITKKIEDRLNDKLEIEISTLSIIPEILSRLVTKVS FNKKKDIIHLLLKLFNSDNFHQYMETKDLLKRTTSNLSDLQKISLIDEFIDFPSAPPNTQLH MGQRYNFLTPFECLLGVTITPPKENSKKIASAKLKKDINDLKSDNLDLRKAVSQKLITLYNL EMLNKSDTTKLIKNLWSKRDNFGFPIGSGYYKFFFINNLNPDNENIADKFISIIKTYKFPVQ EGKRVSITGGLDEYCTELNGALHHISLPEKTLSEIISKIHDWYVKDRAWLEKRDDLAKEFTL RFRNITNIITTILEHHKDKLHAESINEISSLLDKMKEDKIPVNSAVTMLCLKNKSTYLERKD IENGLYSFNKDDVIEAINSTYVFIRNNEFPLTIIQAISDKIAWDRNPRLPDCYNLIAYIINS CEFTLPDYLIEKILRGLAYQINIDDRDFVDNNEYLNHLEKKLSATKLAASMFRKNETLGIDQ PSIIQEWKNMCNSRNEFDEIRNEWNNNI* (SEQ ID NO: 192) 21 A MSIYQGGNKLNEDDFRSHVYSLCQLDNVGVLLGAGASVGCGGKTMKDVWKSFKQNYPELLGA LIDKYLLVSQIDSDNNLVNVELLIDEATKFLSVAKTRRCEDEEEEFRKILSSLYKEVTKAAL LTGEQFREKNQGKKDAFKYHKELISKLISNRQPGQSAPAIFTTNYDLALEWAAEDLGIQLFN GFSGLHTRQFYPQNFDLAFRNVNAKGEARFGHYHAYLYKLHGSLTWYQNDSLTVNEVSASQY DEYINDIINKDDFYRGQHLIYPGANKYSHTIGFVYGEMFRRFGEFISKPQTALFINGFGFGD YHINRIILGALLNPSFHVVIYYPELKEAITKVSKGGGSEAEKAIVTLKNMAFNQVTVVGGGS KAYFNSFVEHLPYPVLFPRDNIVDELVEAIANLSKGEGNVPF* (SEQ ID NO: 193) B MSLFKLTEISAIGYWGLEGERIRINLHEGLQGRLASHRKGVSSVTQPGDLIGFDAGNILVVA RVTDMAFVEADKAHKANVGTSDLADIPLRQIIAYAIGFVKRELNGYVFISEDWRLPALGSSA VPLTSDFLNIIYSIDKEELPKAVELGVDSRTKTVKIFASVDKLLSRHLAVLGSTGYGKSNFN ALLTRKVSEKYPNSRIVIFDINGEYAQAFTGIPNVKHTILGESPNVDSLEKKQQKGELYSEE YYCYKKIPYQALGFAGLKLLRPSDKTQLPALRNALSAINRTHFKSRNIYLEKDDGETFLLYD DCRDTNQSKLAEWLDLLRRRRLKRTNVWPPFKSLATLVAEFGCVAADRSNGSKRDAFGFSNV LPLVKIIQQLAEDIRFKSIVNLNGGGELADGGTHWDKAMSDEVDYFFGKEKGQENDWNVHIV NMKNLAQDHAPMLLSALLEMFAEILFRRGQERSYPTVLLLEEAHHYLRDPYAEIDSQIKAYE RLAKEGRKFKCSLIVSTQRPSELSPTVLAMCSNWFSLRLTNERDLQALRYAMESGNEQILKQ ISGLPRGDAVAFGSAFNLPVRISINQARPGPKSSDAVFSEEWANCTELRC* (SEQ ID NO: 194) 22 A MDRSAVDTIRGYCYQVDKTIIEIFSLPQMDDSIDIECIEDVDVYNDGHLTAIQCKYYESTDY NHSVISKPIRLMLSHFKDNKEKGANYYLYGHYKSGQEKLTLPLKVDFFKSNFLTYTEKKIKH EYHIENGLTEEDLQAFLDRLVININAKSFDDQKKETIQIIKNHFQCEDYEAEHYLYSNAFRK TYDISCNKKDRRIKKSDFVESINKSKVLFNIWFYQYEGRKEYLRKLKESFIRRSVNTSPYAR FFILEFQDKTDIKTVKDCIYKIQSNWSNLSKRTDRPYSPFLLFFIGTSDANLYELKNQLFNE DLIFTDGYPFKGSVFTPKMLIEGFSNKEIHFQFINDIDDFNETLNSINIRKEVYQFYTENCL DIPSQLPQVNIQVKDFADIKEIV* (SEQ ID NO: 195) B MSRNNDINAEVVSVSPNKLKISVDDLEEFKIAEEKLGVGSYLRVSDNQDVALLAIIDNFSIE VKESQKQKYMIEASPIGLVKNGKFYRGGDSLALPPKKVEPAKLDEIISIYSDSIDINDRFTF SSLSLNTKVSVPVNGNRFFNKHIAIVGSTGSGKSHTVAKILQKAVDEKQEGYKGLNNSHIII FDIHSEYENAFPNSNVLNVDTLTLPYWLLNGDELEELFLDTEANDHNQRNVFRQAITLNKKI HFQGDPATKEIISFHSPYYFDINEVINYINNRNNERKNKDNEHIWSDEEGNFKFDNENAHRL FKENVTPDGSSAGALNGKLLNFVDRLQSKIFDKRLDFILGEGSKSVTFKETLETLISYGKDK SNITILDVSGVPFEVLSICVSLISRLIFEFGYHSKKIKRKSNENQDIPILIVYEEAHKYAPK SDLSKYRTSKEAIERIAKEGRKYGVTLLLASQRPSEISETIFSQCNTFISMRLTNPDDQNYV KRLLPDTVGDITNLLPSLKEGEALIMGDSISIPSIVKIEKCTIPPSSIDIKYLDEWRKEWVD SEFDKIIEQWSKS* (SEQ ID NO: 196) 23 A MAYEAQISRTNPAAFLFVVDQSGSMSDKMSSGRSKAEFVADALNRTLMNLITRCTKSEGVRD YFEIGVLGYGGQGVSNGFSGSLGGQVLNPISALEQNPARVEDRKRKMDDGAGGIIETAIKFP VWFDPIASGGTPMREALTRAAEELVTWCDAHPDCYPPTILHVTDGESNDGDPEEIANHLRQI RTNDGEVLILNIHVSSLGNDPIRFPSSDTGLPDAYAKLLFRMSSPLPEHLVRFAQEKGHTVG IESRGFMFNAEAAELVDFFDIGTRASQLR* (SEQ ID NO: 197) B MKLEFLGTVPKDPEYPKANEDKFAFSEDGRRLALCDGASESFNSKLWADLLARKFTADPKVN PEWVASALAEYSATHDFRSMSWSQQAAFERGSFATLIGVEEFEEHQAVEILAIGDSITMLVD CGKLICAWPFDNPEKFNERPTLLATLYAHNNFVGGSTFWTRHGKTFYLEKLTQPKLLCMTDA LGEWALKQALAEDSGFIELLSLQTEEELAELVLRERAAKRMHIDDSTLLVLSF* (SEQ ID NO: 198) C MPYPSLEQYNQAFQLHSKLLIDPELKSGTVATTGLGLPLAISGGFALTYTIKSGAKKYAVRC FHRESKALERRYEAISRKISSLRSPYFLDFQFQPQGVKVEGISYPIVKMAWAKGETLGEFLE VNRRSAQAIAKLSASIESLAAYLEKEKIAHGDFQTGNLMVSDGGATVQLIDYDGMFVDEIKT LGSSELGHVNFQHPRRKATNPFNHTLDRFSLISLWLALKALQIDPSIWDKSNSELDAIEFRA NDFVDPGSSSILGMLSGIQQLSTHVKNFAAVCASAMEKTPSLGDFIASKNIPISLASISMNG DIPVSRLKPGYIGAYTVLSALDYSACLQRVGDKVEVIGKIIDVKLNKTRNGKPYIFVNFGDW RGNIFKISIWSEGISALPSKPDASWIGKWISVIGLMEPPYVSGKYKYSHISITVTTIGQMTV LSEPDARWRLAGPNESRQTLTSTSSNQEALERIKSKSTTSTPMPMNTNATTANQAILNKLRA STQTVAAARAQTQHWPNKSSTHYVAPTGTSASQPVQNIPSPASTSKQQTSQKNIVTKILKWL FG* (SEQ ID NO: 199) 24 A MVGSRWYKFDFHNHTPASHDYKIPDISPREWLLAYMKQHVDCVVTSDHNSGAWVDVLKGELE NMSRDASTGDLPEFRPLTLFPGVELTATGNVHILAVLHTHSTSADVERLLAQCNNNSPIPSE VPNHQLVLQLGPAGIISNIRRNPKAVCILAHIDAAKGVLSLTNQAELTAAFQESPHAVEIRH RVEDITDGTRRRLIDNLPWLRGSDAHHPEQAGVRTCWLKMSSPDFDGLRHALLDPENCVLFD QLPPEEPASYLRSLKFRTRHCHPVGQDSASVEFSPFYNAVIGSRGSGKSTLIESIRLAMRKT EGLTATQGSKLDQFIRTGMEADSFIECIFHKEGTDFRLSWRPDSKHELHIFSDGEWMPDSHW SADRFPLSIYSQKMLYELASDTGAFLRVCDESPVVNKRAWKERWDQLEREYLNEQITLRGLR ARQGSADSLRGELSDAERAVSQLQSSAYYPVCRQLALARNELSAATLPLEHFERRIAAIQAL AEEPLQRSDIPPEPSGLLMAFMARLSSVQQQYDQRLNTLLAEYAAELAGIRREQSFIALRTA VSDQETNVESEAVSLRARGLNPDVLNELMARCESLKNELRNYDGLDGAISASVARSEQLLAE MRAHRMALTDNRKAFLSSLSLSALEIKILPLCAPYEDVISGYQTVTGISNFAERIYDNSDGS GLLSDFISERPFSPLPAATEKKYRALDELKALHHSIRLDNSEAGAGLHGSFRNRLRSLNDQQ LDALQCWYPDDGIHIRYQTPGGQMEDIAFASPGQKGASMLQFLLSYGTDPLLLDQPEDDLDC LMLSMSVIPAIMSNKKRRQLIIVSHSAPIVVNGDAEYVISMQHDRTGLYPGLCGALQEAPMK ALICRQMEGGEKAFRSRYERILS* (SEQ ID NO: 200) 25 A MNEHLSHMDVHTLFEEMDEQADGITFKYSFDDIAKSNALVVTEFVNFERDSTVALLASLLTL PAHQSQCLRFELLTSLALIHCKGQQIANIDDVKRWYVTTGESSSIVGEDPAEDWVALVDNKK GDYRVLEGVWEAAGFYTQLMVEIVSDMPDTHRYRSLKLAIQAILRLSDVICARSGLYRFQEG ADEFPDSLDTAGLDEKTLCSRVTLSERSLRAEGIKLADLAPFILEPSHISMLGNQVPGEGML EQRPLLRTRDGIVVVLPTAMTIALRQAVITFAKRTEELSELDKALANVYSLTFSEMPVFGNG GRLRRLTWEKYKMSRTTMVTSIVDAGHLMVLQFVLPSIQQYADTGFNNLLQLDEETTQFLDN SVEQITVDLAKQPGFQRGIVVRIACGWGAGFMGVPPQLPDGWGFEWMSGADFVRFGALPDMS PIAFWRVQDAVETIRQAGVRLINMSGTLNLLGWIRANDGHMVPHDQLPDDRITPEHPLMLMI PTNLLRGIRIAADTGYDRHRISDNNGKWHRVMRPSAEDFFPTERQSKCYASIDDLEAQRLTC VYEGQGNLWVTLEAPEMEDWMLLVELAKMVRTWIGRIGEALEVLSEQPIKKSLKVYLHFDGN DNIGRFDGENSDDMNTFWRLERIHEHGAIRVVLQDGYLAGFRLPDNRAERALVRALGTAFAT LLRMKEPVDKGVTVEQIAVPNDRARSFHIMQAYDFNQYLGRSLTKRLLAEDIDSAAARELAW RAVSTDAPSRYQGKKEVGKLLNDWDVLIQDLLSELSRFDRKQTVMRLLENVVKARCEEAHWR STAAAVLGLHAGEEGVEETIAQEMSRYAGAALTSRLIIELAICVCPTSGGIEPSDMALSKLL ARASLLFRIGGMSDAVRFGALPADIRISPLGDLLFRDELGKMVLEPMLSKVTNERFEEQAAQ FEQHYVKTAGGDDENSKQDSVAAETTEDQTDIFLAFWKAEMGFTLEDGMRFIQFLESIGEQE SAEEMRRSQLADAAKSAGLADETIDAFLNQFILSARPKWDVVPDGFDLSDIYPWRFGRRLSV AVRPLLQEESHDPLIVIAPGLLNLSLKYVFDGAYTGQFKRDFFRTEGMRDTWLGGAREGHTF EKTLERELRETGWTVRRGIGFPEERRNLPGDPGDIDLLAWRSDRNQVLVECKDLSLARNYSE VASQLSEYQGDDIKGKPDKLKKHLKRVLLAKENIDNFAKFTSIANPEIVSWLVFSGASPIAY AQSKEALAGTNVGRPSDLLNF* (SEQ ID NO: 201) 26 A MDYLSEVLKIIEGATKANASMASNYAGLLADKLEQKGEVKQARMIRERLLRAPQALAGAQRA GGGISLGSLPVDIDSRLNTVDVSYPKLDSSEIFLPAAISTRVEEFITNVQRYDEFVKADAAL PSRMLVYGKPGTGKTMLSKYIATRLDFPLLTVRCDTLISSLLGQTSKNLRQVFDYVMQRPSV LFLDEFDALAGARGNERDIGELQRVVTSLLQNMDAASEDTVIIASTNHEQLLDPAIWRRFSF RIPMPLPDIHQRELIWKNRLKNMICSDLDLSDLSRKSEGLSGAIIEQVSLDARRDAVIEGAS VINHHKLYRRLYLAQSLMEGVNLSTYEDEIRWLRSKDKKLFSIRVLANLYKLTSRVISNILK ESGAYEQKGYTV* (SEQ ID NO: 202) B MSRRGTQFSNAKVTNPMLRIPFSSSDLGAIVNAGGGAKVLVDVTAEYRQGLVRNLTTSKHYL ESKLSEYPGSLGTLVFKLRDQGIAKTHRPNKIAQEAGLQNAGHAKIDEMLVAAHAGCFDVLE SVILHRNIKAILANLSAERIEPWDENRKVPGGTDGLFESSNILVRLFEYTGEDATYNNYENV ISILEQHGVKYDEIRQKCGLPLLRIMDLSPNDRYILDILIDYPGIRTLIPEPKYSAFPVSVS DSVGIETNSFPVPSEELPIVAVFDTGVSPIAATITPWVVSRETYVIPPDTSYEHGTMVSSLI SGAHFLNDNHPWIPDTKSKIHDVCALDENGSYISDLILRLADAVNKRPDIKVWNLSLGGGPC NEQTFSDFAMELDRLSDKFGILFVVAAGNYVDEPIRTWPNPDPLGGADLISSPGESVRALTV GSVSHMEANDALSEIGTPTPYTRRGPGPVFTPKPDIIHAGGGVHRPWNVGASSLKVVGPDNR LCSNFGTSFAAPIVASLAAHTWQRIATNTDFNVSPSLIKALLIHSAQLSSPDYSPSERRYLG AGIPNEVIETLYDSDDRFTLIFQTFLVPGVRWRKDNYPIPSALIQNGKFKGEIVITAAYAPP LNPNAGSEYVRANVELSFGLIENNTIKGKVPMEGENGQSGYERAQIEHGGKWSPVKIHRKAF NKGITSGNWALQAKTTLRANEPALMEPLPVTIVVTLKSLDGNTQVYADGVRALNANNWAHYP LPARVPVSV* (SEQ ID NO: 203) 27 A MKTVRSACQLQPKALEINVGDQIEQLDQIINDTNGQEYFKKTFITDGFKTLLSKGMARLAGK SNDTVFHLKQAMGGGKTHLMVGFGLLAKDAALRNSHLGSMPYQSDFGSAKIAAFNGRNNPHS YFWGEIARQLGREGVFREYWESGAKAPDEQAWINIFDGEEPILILLDEMPPYFHYYSTQVLG QGTIADVVTRAFSNMLTAAQKKKNVCIVVSDLEAAYDTGGKLIQRALDDATQELGRAEVSIT PVNLESNEIYEILRKRLFLSLPDKNEVSEIASIYASRLAEAAKAKTVERSAEALANDIESTY PFHPSFKSIVALFKENEKFKQTRGLMELVSRLLKSVWESDEEVYLIGAQHFDLSIHDVREKL AEISEMRDVIARDLWDSTDSAHAQIIDLNNGNHYAQQVGTLLLTASLSTAVNSVKGLTESEM LECLIDPNHQGSDYRNAFTELAKSAWYLHQTQEGRNYFSHQENLTKKLQGYADKAPQNKVDE LIRHRLEEMYRPVTKEAYEKVLPLPEMDEAQATLRSGRALLIISPDGKTPPGVVGNFFKGLV NKNNILVLTGDKSSIASIEKAARHVYAVTKADNEITASHPQRKELDEKKAQYEQDFQTTVLS VFDKLLFPGNNRGEDVLRPKALDSTYPSNEPYNGERQVVKTLTSDPIKLYTQINENFDALRA RAESLLFGTLDEARKTDLLDKMKQKTQMPWLPSRGFDQLAIEAYQRGVWEDLGNGYITKKPK PKTTEVIISEDSSPDDAGTVRLKIGVANAGNSPRIHYAEDDEVTESSPVLSDNTLATKALRV QFLAVDPTGKNLTGNPTTWKNRLTLRNRFDEVARTVELFVAPRGTIKYTLDGSEARNGETYT VPIQLADQEATIYVFAECDGLEEKRNFTFAAAGSKEIPIIKDKPATLVSPSPKRMDSSAKTY EGLKIAKEKGIEFEQISLMVGSAPKVIHISLGEMKISAEFIETVLTHLQTVLSPEAPVVMTF KKAYTQTGHDLEQFVKQLGIEIGNGEVEQR* (SEQ ID NO: 204) B MNKTVDFGAPSEFGMHHFYVEIPAAPRDAVVIYEDYGFDGEDSRRETVECRLILARELWTKI RDDVRRDFNARLKIKKQSSGTWSTGKVKLDRFLGRELCVLGWAAEHASPDECLVICQKWLAL RPEERWWLYSKTAAEAGRDDQTQRGWRKALYCALSDGANIKLETKKKPKSKKLQVEDETQDL FGFMEKGEF* (SEQ ID NO: 205) C MALQPFEWRDKPSLIEHLFPVQKISAETFKERMASHGQLLVSLGAFWKGRKPLHNKACILGS LLPATDNPLEDLEVFELLMGIDSESMQKRIEASLPASKQETIGDYLVLPYAEQIRIAKRPEE IDESLFVHIWNRVNNHLGTSAHTFAQLVEELGVARFGHRPRVADVFSGSGQIPFEAARLGCD VYASDLNPISCMLTWGALNVVGASAQKRVEIDKAQRDIVKKVQKEIDELDIESDGRGWRAKV FLYCVEVTCPESGWRVPLIPSLIISNSFRVVAELKPVPAERRYDISIREVSTDEELEFYKSG TIQDGEVIHSPDGKTQYRVNDCTIRGDYKEGKENLNKLRMWEKTDFAPRPDDIFQDRLFCVQ WMKKKPKGSQYYYEFRTVTNDDLKREKKVIEHVASKLDDWQKQGLVPDMVIEAGDKTDEPIR TRGWTHWHHLFHPRQLLFLSLVNKYSLAEGKFNFLQCMNFILSKLTRWRPQAGGGGGSAATF DNQALNTLYNYPVRATGSIENILAAQHNHCGISENVSFVVNSHPAPELDVENDIYITDPPYG DAVKYEEITEFFIAWLRKNPPKEFAHWTWDSRRSLAVKGEDEGFRTGMVAAYRKMAQKMPDN GLQVLMFTHQSGAIWADMANIIWASGLQVTAAWYVVTETDSALRGGSNVKGTIILILRKRHQ ALETFRDDLGWEIEEAVKEQVESLIGLDKKVRSQGAEGLYTDADLQMAGYAAALKVLTAYSR IDGKDMVTEAEAPRQKGKKTFVDELIDFAVQTAVQFLVPVGFEKSEWQKLQAVERFYLKMAE MEHQGAKTLDNYQNFAKAFKVHHFDQLMSDASKANSARLKLSTEFRSTMMSGDAEMTGTPLR ALLYALFEISKEVEVDDVLLHLMENCPNYLPNKQLLAKMADYLAEKREGLKGTKTFNPEQEA SSARVLAEAIRNQRL* (SEQ ID NO: 206) D MAIKRFSSRTERLDTEFLAESLKGAAKYFRIAGYFRSSIFELVGEEIAKIPEVKIICNSELD LADFQVATGRNTALKERWNEVDVEAEALLKKERYQILDQLLHSGNVEIRWPRERLFLFIGKA GSIHYADGSRKSFIGSVNESKSAFAHNYELVWQDDDEESADWVEREFWALWTEGVPLPDAIL AEIHRVSNRREVTVDVLKPEEVPAAAMAEAPIYRGGEQLQPWQRSFVTMFLEHREIYGKARL LLADEVGVGKTLSMATSALVSALLDDGPVLILAPSTLTIQWQIEMMDKLGVPAAVWSSQKKV WLGVEGQILSPRGDASSIKKCPYRIAIISTGLIMHQREKTDFVKEAGMLLKNRFGTVILDEA HKARIRGGLGDQASEPNNLMAFMLQIGRRTRHLVLGTATPIQTNVRELWDLLGILNSGAEFV LGDALSPWHDHEQAIPLITGQTQVTSEAEVWHWLSNPLPPSNEHHTVQQIRDYLSIDNKSFG YSHRFEDLDYMIQSLWLSECMTPSFFKENNPILRHTVLRKRKQLEDDGLLERVGVNTHPIKR NLAQYQSRFVGLGIPTNTPFQVAYEKAEEFSKLLQSRTRAAGFMKSLMLQRICSSFASGLKT AQKMLKHTVSDEDEDLVEDVEHLLSEMTPAEVACLREIETQLSRPEAVDSKLNTVKWFLTEF RTDGKTWLEHGCIIFSQYYDTAEWTAKELAKSLKGEVVAVYAGVGKSGLFRGEQFNNVEREL IKSAVKTREILLVVATDAACEGLNLQTLGTLINVDLPWNPSRLEQRLGRIKRFGQTRKFVDM LNLWSETQDEKVYNVLSERLRDTYDIFGSLPDTIDDEWIDNEEELNTRMDEYMHERKKAQDA FSVKYRGTLDPDAHLWERCATVLSRRDIVSKLSEPWGS* (SEQ ID NO: 207) 28 A MSEQFVSEAAGTPHLAEQDDGLKNLKLLEESFNTDKLNSSEQKKLQELRSILSPLLKKGGVL ADLFQDGKDVLAFPIDVDSVLQHLNQDMRDDWFTDTLQHKDLLSNKQSLHEVLHELLNEGNG QYIGSFRSVYNIPKKGLGIRYSLETDFYDRFIYQAICTFLIQFYDPLLSHRVLSHRFNKDRK SEKYIFKSRIDLWQTFEGVTRTALSNNQSLLATDLINCYENITIETIRTAFERSIEHINTSG PNKVLIRNAVQTLCNLLSRWGYSERHGLPQNRDASSFIANWLNDIDHEMVRLGYDYYRYVDD IRYICPNTRVAKKALTELINQLRKVGMNINSGKTKILTQDSTANEVDEFFPTSDDRSLTIDN MWRSRSRRVIARSAKYIFQELKECIEEKQTQSRQFRFAVNRLIKLTDAGIFDIHATIATDLK ALLISSLEDHAASTDQYCRLLGILDLNEHELNDIYNHLSDHERSVHSWQNFHLWLLLANRKY KSTNLITLATARIESDILQPEIAAIFIYLKCVGEAQVLIDNISKFESAWPYYHQRNFLLACS DFDHNQLKPLISKLGPKLKWTGSRAKPYFTNGMPLVERDKIAMLDLYDEITPYD* (SEQ ID NO: 208) B MTESKKALLFIADYTDQGQDRIFLWSDGTLGEVTISDLVDQKHELVCHDLWLIAPSLYRATN KLPSNITDIEELRILTSGKKKERESRDKKDISQLLSSFVSEETIARYKEIFNRKIPLDEAVL SSIGEALLKCSEWKSDANTAGEWERFITERPVNDYLIRSTSEGISISEEKLRYHKNKIEFEF YMALKSFSSDYDMPLEVPSDQAVIEYLEPKGFDFTGLDVDYILNFVPMQSHFAEDLIRLRKI QNSRRVLAAIPLSQSRIYPIVDSFGSITSRIYFKDPSLQNLAKHHRDILIPDTNKQLSYIDY DQFEAGVMAALSGDEKLLELYNSSDVYEIAAKEIFDDKSKRKQAKRLFLSYAYGMKRQHILA AAQGFGADRQNAKKFFEQFKTFEAWKVLVHEEFHRTGRIGTALGNYMHRERKGELTSKEKRS AISQIVQGTASLIFKKALLCLSSISEVKLKLPMHDAVLLEHPADYDMDRVINIFSEIMSEHF QNKIQGKASLSQFHEDL* (SEQ ID NO: 209) 29 A MSVIRGLAAVLRQSDSDISAFLVTAPRKYKVYKIPKRTTGFRVIAQPAKGLKDIQRAFVQLY SLPVHDASMAYMKGKGIRDNAAAHAGNQYLLKADLEDFFNSITPAIFWRCIEMSSAQTPQFE PQDKLFIEKILFWQPIKRRKTKLILSVGAPSSPVISNFCMYEFDNRIHAACKKVEITYTRYA DDLTFSSNIPDVLKAVPSTLEVLLKDLFGSALRLNHSKTVFSSKAHNRHVTGITINNEETLS LGRDRKRFIKHLINQYKYGLLDNEDKAYLIGLLAFASHIEPSFITRMNEKYSLELMERLRGQ R* (SEQ ID NO: 210) B MTKQYERKAKGGNLLSAFELYQRNSDKAPGLGEMLVGEWFEMCRDYIQDGHVDESGIFRPDN AFYLRRLTLKDFRRFSLLEIKLEEDLTVIIGNNGKGKTSILYAIAKTLSWFVANILKEGGSG QRLSEMTDIKNDAEDRYSDVSSTFFFGKGLKSVPIRLSRSALGTAERRDSEVKPAKDLADIW RVINEVNTINLPTFALYNVERSQPFNRNIKDNTGRREERFDAYSQTLGGAGRFDHFVEWYIY LHKRTVSDISSSIKELEQQVNDLQRTVDGGMVSVKSLLEQMKFKLSEAIERNDAAVSSRVLT ESVQKSIVEKAICSVVPSISNIWVEMITGSDLVKVTNDGHDVTIDQLSDGQRVFLSLVADLA RRMVMLNPLLENPLEGRGIVLIDETELHLHPKWQQEVILNLRSAFPNIQFITTTHSPIVLST IEKRCIREFEPNDDGDQSFLDSPDMQTKGSENAQILEQVMNVHSTPPGIAESHWLGNFELLL LDNSGELDNHSQVLYDQIKAHFGIDSIELKKADSLIRINKMKNKLNKIRAEKGK* (SEQ ID NO: 211) C MRELARLERPEILDQYIAGQNDWMEIDQSAVWPKLTEMQGGFCAYCECRLNRCHIEHFRPRG KFPALTFIWNNLFGSCGDSRKSGGWSRCGIYKDNGAGAYNADDLIKPDEENPDDYLLFLTTG EVVPAIGLTGRALKKAQETIRVFNLNGDIKLFGSRRTAVQAIMPNVEYLYTLLEEFDEDDWN EMLRDELEKIESDEYKTALKHAWTFNQEFA* (SEQ ID NO: 212)

Sequence of vector backbone. Inserts were cloned between the HindIII and EcoRI restriction sites (underlined).

(SEQ ID NO: 213) CCCGCGCCCACCGGAAGGAGCTGACTGGGTTGAAGGCTCTCAAGGGCATC GGTCGAGATCCCGGTGCCTAATGAGTGAGCTAACTTACATTAATTGCGTT GCGCAAGCTTCTGCAGAATTCGCAATAACTAGCATAACCCCTTGGGGCCT CTAAACGGGTCTTGAGGGGTTTTTTGCTGAAACCTCAGGCATTTGAGAAG CACACGGTCACACTGCTTCCGGTAGTCAATAAACCGGTAAACCAGCAATA GACATAAGCGGCTATTTAACGACCCTGCCCTGAACCGACGACCGGGTCGA ATTTGCTTTCGAATTTCTGCCATTCATCCGCTTATTATCACTTATTCAGG CGTAGCACCAGGCGTTTAAGGGCACCAATAACTGCCTTAAAAAAATTACG CCCCGCCCTGCCACTCATCGCAATACTGTTGTAATTCATTTAACATTCTG CCGACATGGAAGCCATCACAGACGGCATGATGAACCTGAATCGCCAGCGG CATCAGCACCTTGTCGCCTTGCGTATAATATTTGCCCATAGTGAAAACGG GGGCGAAGAAGTTGTCCATATTGGCCACGTTTAAATCAAAACTGGTGAAA CTCACCCAGGGATTGGCTGAGACGAAAAACATATTCTCAATAAACCCTTT AGGGAAATAGGCCAGGTTTTCACCGTAACACGCCACATCTTGCGAATATA TGTGTAGAAACTGCCGGAAATCGTCGTGGTATTCACTCCAGAGCGATGAA AACGTTTCAGTTTGCTCATGGAAAACGGTGTAACAAGGGTGAACACTATC CCATATCACCAGCTCACCGTCTTTCATCGCCATACGGAACTCTGGATGAG CATTCATCAGGCGGGCAAGAATGTGAATAAAGGCCGGATAAAACTTGTGC TTATTTTTCTTTACGGTCTTTAAAAAGGCCGTAATATCCAGCTGAACGGT CTGGTTATAGGTACATTGAGCAACTGACTGAAATGCCTCAAAATGTTCTT TACGATGCCATTGGGATATATCAACGGTGGTATATCCAGTGATTTTTTTC TCCATTTTAGCTTCCTTAGCTCCTGAAAATCTCGATAACTCAAAAAATAC GCCCGGTAGTGATCTTATTTCATTATGGTGAAAGTTGGAACCTCTTACGT GCCGATCAACGTCTCATTTTCGCCAAAAGTTGGCCCAGGGCTTCCCGGTA TCAACAGGGACACCAGGATTTATTTATTCTGCGAAGTGATCTTCCGTCAC AGGTATTTATTCGGCGCAAAGTGCGTCGGGTGATGCTGCCAACTTACTGA TTTAGTGTATGATGGTGTTTTTGAGGTGCTCCAGTGGCTTCTGTTTCTAT CAGCTGTCCCTCCTGTTCAGCTACTGACGGGGTGGTGCGTAACGGCAAAA GCACCGCCGGACATCAGCGCTAGCGGAGTGTATACTGGCTTACTATGTTG GCACTGATGAGGGTGTCAGTGAAGTGCTTCATGTGGCAGGAGAAAAAAGG CTGCACCGGTGCGTCAGCAGAATATGTGATACAGGATATATTCCGCTTCC TCGCTCACTGACTCGCTACGCTCGGTCGTTCGACTGCGGCGAGCGGAAAT GGCTTACGAACGGGGCGGAGATTTCCTGGAAGATGCCAGGAAGATACTTA ACAGGGAAGTGAGAGGGCCGCGGCAAAGCCGTTTTTCCATAGGCTCCGCC CCCCTGACAAGCATCACGAAATCTGACGCTCAAATCAGTGGTGGCGAAAC CCGACAGGACTATAAAGATACCAGGCGTTTCCCCCTGGCGGCTCCCTCGT GCGCTCTCCTGTTCCTGCCTTTCGGTTTACCGGTGTCATTCCGCTGTTAT GGCCGCGTTTGTCTCATTCCACGCCTGACACTCAGTTCCGGGTAGGCAGT TCGCTCCAAGCTGGACTGTATGCACGAACCCCCCGTTCAGTCCGACCGCT GCGCCTTATCCGGTAACTATCGTCTTGAGTCCAACCCGGAAAGACATGCA AAAGCACCACTGGCAGCAGCCACTGGTAATTGATTTAGAGGAGTTAGTCT TGAAGTCATGCGCCGGTTAAGGCTAAACTGAAAGGACAAGTTTTGGTGAC TGCGCTCCTCCAAGCCAGTTACCTCGGTTCAAAGAGTTGGTAGCTCAGAG AACCTTCGAAAAACCGCCCTGCAAGGCGGTTTTTTCGTTTTCAGAGCAAG AGATTACGCGCAGACCAAAACGATCTCAAGAAGATCATCTTATTAATCAG ATAAAATATTTCTAGATTTCAGTGCAATTTATCTCTTCAAATGTAGCACC TGAAGTCAGCCCCATACGATATAAGTTGTAATTCTCATGTTAGTCATGC

Example 3—Diverse Enzymatic Activities Mediate Antiviral Immunity in Prokaryotes

Bacteria and archaea are frequently attacked by viruses and other mobile genetic elements and rely on dedicated antiviral defense systems, such as restriction endonucleases and CRISPR, to survive. The enormous diversity of viruses suggests that more types of defense systems exist than are currently known. By systematic defense gene prediction and heterologous reconstitution, here Applicants discovered 29 widespread antiviral gene cassettes, collectively present in 32% of all sequenced bacterial and archaeal genomes, which mediate protection against specific bacteriophages. These systems incorporate enzymatic activities not previously implicated in antiviral defense, including RNA editing and retron msDNA synthesis. In addition, Applicants found a diverse set of other defense genes. These results highlight an immense array of molecular functions that microbes employ against viruses.

Domain-independent identification of uncharacterized defense systems

Many antiviral defense genes in bacterial and archaeal genomes show a distinctive tendency to cluster together within defense ‘islands’ (7, 10). As a consequence, an uncharacterized gene whose homologs consistently occur next to, for instance, restriction-modification genes has an increased likelihood of being involved in defense (11, 12).

Applicants found that additional, unknown defense systems exist which either lack annotated domains, or only contain domains that are not typically associated with defense but have been co-opted in specific instances to perform defense functions. Applicants developed an expanded computational approach in which novel defense systems were identified independent of domain annotations (FIG. 16A). Applicants analyzed all bacterial and archaeal genomes available in Genbank as of November 2018, collectively encoding 620 million proteins. To identify candidate novel defense genes, Applicants first compiled a list of all genes within 10 kb or 10 open reading frames away from known defense systems (see Methods). This initial list (n=8.7×10⁶) which evidently contained both novel defense genes and non-defense ones, was clustered to yield 6×10⁵ representative sequences (“seeds”). To distinguish between defense and non-defense seeds, Applicants identified all homologs of each seed present in Genbank and analyzed their gene neighborhoods. The seed was predicted to be a defense gene if these neighborhoods resembled those of known defense gene—in particular, if a high percentage of homologs were located in proximity to known defense genes (“defense score”) and displayed context diversity (FIGS. 16B, 21A-21D, and Methods). All clustering and homolog detection steps were performed based on amino acid sequences, without invoking existing domain annotations and thus allowing the identification of novel types of defense genes.

After all filtering and curation steps, Applicants identified a total of 7,472 seeds that represented candidate defense genes, along with 4,555 seeds for known defense genes under the same analysis parameters (FIG. 16C). These seeds were analyzed with additional, more sensitive analysis of their domain content. Of the uncharacterized genes, 1,687 (23%) had either no annotated domains or contained only domains of unknown function (DUFs), and an additional 2,756 (37%) contained only domains that are different from the characteristic domains of known defense genes. These results suggested the existence of a diverse set of defense genes with mechanisms that remain to be investigated.

Candidate defense systems exhibit antiviral activity in a heterologous system

To characterize the functional diversity among the predicted defense genes, Applicants selected 48 candidate systems to test experimentally for defense activity. Candidate systems were prioritized based on the presence of predicted molecular functions not previously implicated in defense; broad phylogenetic distribution; the presence of at least one protein larger than 300 amino acids (to increase the likelihood of the presence of enzymes); and, for multi-gene systems, conservation of the component genes. Because wild-type bacterial strains are likely to harbor multiple active defense systems, thereby maintaining phage resistance even if one of the systems were knocked out (13), Applicants elected to assay activity by heterologous reconstitution. For each system, 1-4 homologs were selected, cloned from the source organism into the low-copy vector pACYC and transformed into Escherichia coli (FIG. 17A), comprising a total of 395 kb of exogenous DNA (see tables 9-16 for sequence, accession, and source organism information). Three previously identified defense systems, BREX type I (13, 14), Druantia type I (4), and the abortive infection reverse transcriptase RT-Abi-P2 (15) were included as positive controls. Each system was then challenged with a diverse panel of coliphages with dsDNA, ssDNA, or ssRNA genomes, and phage sensitivity of the bacteria was compared to that observed with the empty vector control (FIGS. 17B-17C).

Applicants observed anti-phage activity for 29 of the 48 tested candidates (60%) (FIG. 22). Systems from source organisms outside the Enterobacteriaceae family, which had Escherichia and closely-related genera including Salmonella and Klebsiella, had little to no activity, suggesting the importance of host compatibility. The most active representative in each of these 29 systems (representing 4% of the uncharacterized defense seeds) was further tested with an expanded panel of phages in two E. coli strains (FIGS. 17D and 23). All 29 systems were active against at least one dsDNA phage, and four were active against ssDNA phages (M13 or φX174). Phage specificity was typically narrow and varied widely across systems. The abundance of these defense systems among the sequenced bacterial and archaeal genomes spans two orders of magnitude, ranging from ˜0.1% to ˜10% of the genomes (FIG. 17D). Overall, 32% of all sequenced bacterial and archaeal genomes contain at least one of these novel defense systems, which are broadly distributed across bacterial and archaeal phyla (FIG. 24).

RADAR with a divergent adenosine deaminase that edits RNA in response to phage infection

Applicants identified a two-gene cassette consisting of an ATPase (˜900 residues) and a divergent adenosine deaminase (˜900 residues) that was active against dsDNA phages T2, T3, T4, and T5. Because deaminase activity had not been previously implicated in antiviral defense, Applicants focused on this system for further investigation. The system appeared in diverse defense contexts and forms three subtypes (FIGS. 18A and 25A). In most cases, it had the ATPase and deaminase only, but some variants also included a small membrane protein, either a SLATT domain (16) or the type VI-B CRISPR ancillary protein Csx27 (17). Mutations in the ATPase Walker B motif or in the putative divalent metal cation-binding H×H motif of the deaminase abolished defense activity, whereas the SLATT domain membrane protein was required for resistance against phage T5 but not against phage T2 (FIG. 18B).

Given the large size of the deaminase compared to typical metabolic adenosine deaminases and its sequence divergence due to large insertions within the deaminase domain (FIG. 25B), Applicants found that it acted on nucleic acids rather than on free nucleosides or nucleotides. Applicants performed whole-transcriptome sequencing and found an enrichment of A to G substitutions in sequencing reads at specific sites in the presence of phage, whereas C, G, or U bases were not affected (FIGS. 18C and 26A), consistent with RNA editing of adenosine to inosine. Furthermore, the overall expression of phage genes, including early genes, was reduced by ˜100-fold even at a multiplicity of infection (MOI) of 2 (FIG. 18D). Since most of the cells in the culture were expected to be infected, this suggested that defense activity occurs early in the infection cycle, which was not evident from efficiency of plating (EOP) alone.

RNA editing occurred only when both the defense system and the phage were present; expression of the defense system without the phage resulted in a near-baseline level of editing, and no editing was detected in the absence of the system. Mutations in the ATPase or deaminase active sites abolished editing, and no DNA editing was detected (FIG. 26B). Editing sites were broadly distributed throughout the E. coli transcriptome (FIGS. 18E, 26A, 27, and table 17), and editing could also be induced by co-expressing specific phage proteins with the system (FIGS. 28A-28F and table 18). RNA secondary structure predictions indicated a characteristic stem-loop structure at strong editing sites; specific adenosines in loops were edited with up to ˜90% frequency, whereas adenosines within the stem were not edited within the limit of detection (FIGS. 18E and 27). Finally, some of the editing sites were deleterious to the host cell, resulting in nonsynonymous mutations such as at the UAA stop codon of the transfer messenger RNA (tmRNA) (FIG. 28B), which rescues ribosomes stalled during translation (18).

Based on these results, Applicants named this system phage restriction by an adenosine deaminase acting on RNA (RADAR). Growth kinetics at varying phage multiplicity of infection (MOI) revealed a threshold MOI above which RADAR-expressing cells had a lower OD600 compared to the empty vector control, suggestive of RADAR-mediated growth arrest (FIG. 18F). Together with the abundance and broad distribution of editing sites in the host transcriptome (FIGS. 26A-26B, 27), these results are consistent with an editing-dependent abortive infection mechanism that is activated by phage.

A widespread family of defense systems containing reverse transcriptases

Applicants discovered that a family of uncharacterized reverse transcriptases (RTs) are active defense systems. Although most RTs in prokaryotes are components of mobile retroelements, distinct clades of RTs that lack the hallmarks of mobility also exist, including 16 ‘unknown groups’ (UGs) (19-22). Applicants independently identified many of these uncharacterized RTs via the pipeline, suggesting that they might be defense genes (FIG. 19A). Indeed, six of these candidates (UG1, UG2, UG3, UG8, UG15, and UG16) provided robust protection against dsDNA phages. In all cases, mutations in the RT active site ((Y/F)×DD (SEQ ID NOS: 1-2) to (Y/F)×AA) abolished activity (FIGS. 19B and 29A-29B). Applicants named these genes defense-associated RTs (DRTs).

Each of these RT systems displayed a distinct pattern of phage resistance (FIG. 17D). Moreover, while UG2 (drt2), UG15 (drt4), and UG16 (drt5) act as individual genes, the UG3 (drt3a) and UG8 (drt3b) RTs were components of the same defense system (DRT type 3), with both RTs required for defense activity. Like RADAR, some subtypes of the UG1 (DRT type 1) and DRT type 3 systems were also associated with small membrane proteins (FIG. 19A). Moreover, DRT type 1 encompassed a much larger protein (˜1200 residues) than the other five RTs and also contains a C-terminal nitrilase domain. Mutation of the catalytic cysteine of the nitrilase (C1119A) abolished the activity (FIG. 19B). Nitrilases typically function in processes unrelated to defense, such as nucleotide metabolism and small molecule biosynthesis (23). Thus, DRT type 1, which is divergent from typical nitrilases and forms a distinct clade in the phylogenetic tree of the nitrilase family (FIGS. 30A-30C), exemplifies a non-defense domain that was apparently co-opted for a defense function.

To further characterize these RTs, Applicants performed whole transcriptome sequencing of RT-expressing E. coli during phage infection. These experiments revealed substantial differences in phage gene expression across the different RTs (FIG. 19C). For instance, DRT type 1 strongly suppressed the expression of phage late genes, such as capsid proteins, whereas early and middle genes were not substantially affected, suggesting that it is active prior to the late stage of infection but does not prevent the injection of phage DNA into the host cell. In contrast, DRT type 3 did not strongly suppress expression of any of the phage genes, despite growing at a rate similar to DRT type 1 during phage infection (FIG. 31A). Transcriptome sequencing also identified a highly expressed, structured non-coding RNA at the 3′ end of the DRT type 3 system that is required for activity (FIGS. 19B, 19D-19E).

Retrons Mediate Anti-Phage Defense

Applicants also found that retrons, a distinct class of RTs that produce extrachromosomal satellite DNA (multi-copy single-stranded DNA, msDNA), are active anti-phage defense systems. The retron msDNA is produced from the 5′ UTR of its own mRNA and is covalently linked to an internal guanosine of the RNA via a 2′-5′ phosphodiester bond (24). First identified over 30 years ago, retrons have been harnessed for bacterial genome engineering (25), but their native biological function has remained unknown. Applicants found that the original E. coli retrons Ec67 (26) and Ec86 (27), as well as a homolog of the Ec78 retron (28) and a novel TIR (Toll/interleukin 1 receptor) domain-associated retron, mediate defense against dsDNA phages. Of note, the Ec86 retron is natively present in the widely-used laboratory E. coli strain BL21. Mutations in the (Y/F)×DD (SEQ ID NOS: 1-2) active site motif of the RT, as well as at the branching guanosine, abolished activity, indicating that the defense function depends on msDNA synthesis (FIGS. 19B and 29C). Furthermore, perturbations to the msDNA also abolished activity (FIG. 31), suggesting that its structure, and not simply formation, is essential for the defense activity. Indeed, a single nucleotide mismatch in the msDNA hairpin reduced activity by 100-1000 fold, but introducing a second mutation on the complementary strand to restore the structure of the msDNA also restored wild-type activity (FIG. 31). Notably, these retrons are associated with other domains, including TOPRIM (topoisomerase-primase) (29), TIR (30), a nucleoside deoxyribosyltransferase-like enzyme, and the Septu defense system (4), all of which play a role for activity (FIG. 19B).

Additional Molecular Functions of Defense Systems

Applicants investigated several additional systems with diverse components (FIGS. 20, 32A-32B). These include a three-gene system containing a von Willebrand factor A (vWA) metal ion binding protein, a PP2C-like serine/threonine protein phosphatase, and a serine/threonine protein kinase that provided strong protection against T7-like phages (T3, T7, and φV-1). This system, dubbed TerY-phosphorylation triad (TerY-P), has been previously analyzed computationally in the context of tellurite resistance-associated stress response and might operate as a phosphorylation switch that couples the activities of the kinase and the phosphatase (31).

Additional systems include proteins containing a SIR2 (sirtuin) deacetylase domain that is also present in the recently-discovered Thoeris system (4) and has also been detected in the same neighborhoods with prokaryotic Argonaute proteins (32); ApeA, a predicted HEPN-family abortive infection protein (33) and a putative ancestor of the type VI CRISPR effector Cas13; a ˜1300 residue P-loop ATPase containing an unusual insertion of two transmembrane helices into the ATPase domain, similar to the KAP ATPases (34); and a four-gene cassette containing a 7-cyano-7-deazaguanine synthase-like protein (QueC), suggestive of small molecule biosynthesis. All of these components are essential for defense activity (FIG. 20).

Finally, Applicants also demonstrated defense functions for several predicted NTPases of the STAND (signal transduction ATPases with numerous associated domains) superfamily (FIG. 20). This expansive superfamily comprise multidomain proteins that include eukaryotic ATPases and GTPases involved in programmed cell death and various forms of signal transduction (35, 36). Typically, STAND NTPases contain a C-terminal helical sensor domain that, upon target recognition, induces oligomerization via ATP or GTP hydrolysis, leading to activation of the N-terminal effector domain. The role of the STAND NTPases in prokaryotes has long remained enigmatic (35, 37); the few for which experimental data are available contain a helix-turn-helix domain and have been shown to regulate transcription (36). Several STAND NTPases were active against dsDNA phages (FIG. 17D); these proteins contained different putative effector domains, including DUF4297 (a putative PD-(D/E)×K-family nuclease), an Mrr-like nuclease, SIR2, a trypsin-like serine protease, and an uncharacterized helical domain. Applicants named these systems antiviral ATPases/NTPases of the STAND superfamily (AVAST). As homologs of essential eukaryotic programmed cell death effectors, AVAST systems are likely to function via an abortive infection mechanism, i.e. by causing growth arrest or programmed cell death in infected hosts.

These findings substantially expanded the space of protein domains, molecular functions, and interactions that are employed by bacteria and archaea in antiviral defense. Some of these functions, including RNA editing, have not been previously implicated in defense mechanisms. The high success rate of defense system prediction based on the evolutionary conservation of their proximity to previously identified defense genes supported the defense island concept (4, 7, 10) and demonstrated its growing utility at the time of rapid expansion of sequence databases. Furthermore, the computational approach implemented in this work provided for a substantial expansion of the range of the identified putative defense systems. Many of these previously unknown defense systems contain enzymatic activities as well as predicted sensor components that potentially could be engineered for novel biotechnology applications.

Despite similarities in domain architectures among some of the identified defense systems, their phage specificities differ significantly, emphasizing the importance of multiple defense mechanisms for the survival of prokaryotes in the arms race against viruses. These observations are compatible with the concept of distributed microbial immunity, according to which defense systems encoded in different genomes collectively protect microbial communities from the diverse viromes they confront (38). Additionally, several of the identified defense systems incorporate molecular functions from typically non-defense sources, highlighting the versatility of activities that are recruited for antiviral defense. These include the RADAR deaminase, nitrilases, and reverse transcriptases of different families, including retrons. The demonstration of defense functions for multiple RTs, which are generally associated with mobile genetic elements, is consistent with the ‘guns for hire’ paradigm whereby enzymes are shuttled between MGEs and defense systems during microbial evolution (8). Finally, most of these defense systems do not appear to be substantially enriched within prophages, suggesting that they are dedicated host defense genes, rather than virus superinfection exclusion modules (FIGS. 33A-33C and Methods).

The overall patchy pattern of phage specificity observed for the different defense systems was unexpected. In some cases, the same system exhibited widely varying levels of protection against similar phages; for instance, DRT type 3 offered full protection against phage T2 but no protection against phage T4, which is ˜98% identical to T2.

The range of domains contained within these systems indicates that they employ diverse biochemical activities. The identification of these defense systems, as well as others Applicants have predicted computationally, provides a foundation for mechanistic investigation.

The results described here have broad implications for understanding antiviral resistance and host-virus dynamics in natural populations of microbes, as well as for technological applications such as the development of anti-bacterial therapeutics, DNA and RNA editing, molecular detection, and targeted cell destruction.

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Materials and Methods

Detection of known defense systems. All bacterial and archaeal genomes (n=174,080) were downloaded from Genbank (NCBI) in November 2018. For genomes where gene annotations were incomplete or missing, genes were predicted using Prodigal (39). Known defense-related protein domains were annotated using RPSBLAST version 2.8.1 and the set of position-specific scoring matrices curated from the NCBI Conserved Domain Database (CDD) (4, 10, 40, 41). To reduce the false positive rate, a multi-gene system containing a ubiquitous protein domain was required to include two or more of its component genes in close proximity. For example, the type I restriction-modification endonuclease hsdR was called as a defense gene only if the corresponding methylase (hsdM) or specificity protein (hsdS) was also encoded in the vicinity. Genes were predicted for known defense systems including HsdRMS, McrBC, BREX, Druantia, Zorya, Wadjet, Thoeris, Hachiman, Lamassu, Gabjia, Septu, Shedu, Kiwa, pAgo, and other RM systems. Toxin-antitoxin systems were excluded from the set of known systems due to their overall low enrichment within defense islands (FIGS. 21A-21D).

Candidate novel defense genes. All translated protein-coding sequences within either 10 kb or 10 ORFs of known defense systems (whichever was greater), including the components of the known defense systems themselves, were compiled into a preliminary list (8.7×10⁶ genes), which was expected to consist of both defense and non-defense genes. Highly similar sequences (at least 98% sequence identity and coverage) were discarded using the linclust option in MMseqs2 (42, 43) with parameters—min-seq-id 0.98-c 0.98, resulting in a reduced list of 2.5×10⁶ sequences. These sequences were then further clustered using the cascaded clustering option in MMSeqs2, yielding a final list of 6.0×10⁵ representatives (“seeds”).

Scoring candidate genes for defense enrichment. For each of the 6.0×10⁵ seeds, a “defense enrichment score” was computed as (number of homologs in proximity to one or more known defense systems)/(total number of homologs). A gene was considered to be located in proximity to a known defense system if it occurred no more than 5 kb or 5 ORFs away from the locus encoding that system. CRISPR-Cas systems were omitted from the defense score calculation due to their low defense island association (10). Candidate sequences with a defense enrichment score of 0.1 or higher were retained for subsequent analysis, with the exception of predicted mobilome components (such as transposons), which were discarded. This cut-off was chosen because more than 90% of the known defense genes scored higher than this value, whereas most mobilome, toxin-antitoxin, and other non-defense genes scored lower (FIGS. 16B, 21A-21D). To identify homologs of the candidate proteins, all 6.2×10⁸ proteins in Genbank were tabulated, and highly similar proteins (at least 98% sequence identity and coverage) were removed, resulting in a reduced list of 1.3×10⁸ proteins. Each seed sequence was then searched against this non-redundant protein sequence database using MMseqs2. To qualify as evidence of homology, the resulting alignments were required to have a minimum coverage of 70% and a maximum E value of 10⁻⁵ (parameters—coy-mode 0-c 0.7-e 0.00001). The set of identified homologs was further clustered at 90% sequence identity to perform stringent redundancy reduction. In order to accurately compute defense association frequencies, seeds with fewer than 50 homologs after redundancy reduction were discarded.

Filtering defense-enriched genes based on context diversity. To select for genes that are likely to encode components of independent defense modules, defense-enriched seeds were further required to have sufficient context diversity. For each seed, the number of homologs within 5 kb or 5 ORFs of different defense system categories was counted, and the seed was retained if the entropy of this list, defined as Σ−p_(i)ln p_(i), where p_(i) is the normalized frequency of category i, was at least 0.9. This value corresponds to halfway between 2 and 3 non-zero entries in the case of a uniformly distributed frequency vector. Seeds were further filtered based on the proportion of homologs next to predicted toxin-antitoxin/Abi, mobilome, and CRISPR-Cas genes (FIGS. 21A-21D).

Refining the classification of putative defense genes. A total of 12,027 seeds passing filter was identified, consisting of both known and putative defense genes. To determine whether each gene was putative or known, the original classification was refined as follows. A list was compiled of the amino acid sequences of reported homologs of known systems, including 288,776 restriction-modification proteins from REBASE (44); 517 proteins for BREX (14); and 27,775 proteins for other recently-identified systems (4, 45, 46). This list was supplemented with additional curated homologs and, following redundancy reduction, searched against the putative defense seeds using MMseqs2. Seeds that matched one or more of these known defense genes (at least 70-80% coverage with a maximum E value of 10⁻⁵) were labeled as known. A subset of labels were adjusted by an additional round of manual curation, resulting in a classification of 4,555 known and 7,472 putative defense genes.

Domain analysis of predicted defense genes. The 7,472 putative defense seeds were further analyzed with additional, more sensitive methods to assess their domain content. For each seed gene, a multiple sequence alignment (MSA) of its homologs was created using MAFFT (47). If the number of homologs was 1,000 or fewer, all homologs were included in the alignment; otherwise, 1,000 homologs were randomly selected for inclusion. MSAs were searched against the Pfam 32.0 database using HHpred (48), and domain predictions with at least 80% probability were retained. Of these 7,472 genes, 3,029 (41%) contained at least one pfam domain that has been reported to be defense-associated (4, 10, 45). Although some of these 3,029 proteins could be distant homologs of known defense proteins, many were included in this category because they contained ubiquitous pfam domains that are also employed by some known defense systems (in particular, AAA-family ATPases, helix-turn-helix (HTH) motifs, and (P)D−(D/E)×K-family nucleases); these are predicted to be uncharacterized defense genes. The remaining 59% either had no domain hits or contained only domains that were not in the set of defense-associated pfams.

From genes to defense systems. For each selected candidate defense protein, the gene neighborhoods of 30 homologs in proximity to known defense genes were randomly chosen and examined to identify conserved (predicted) operons that contained the seed and could be expected to constitute a minimal, intact defense system. Protein domains were predicted using HHpred, and the resulting prediction was used to infer the potential involvement of the respective proteins in the activity of the respective predicted defense system.

Estimation of defense system abundance. To estimate the abundance of each validated defense system in microbial genomes, Applicants downloaded n=205,214 genomes available in Genbank as of August 2019. For each defense system, initial protein sequence seeds encoded by the corresponding signature genes were taken from experimentally validated loci. Initial seeds were aligned and converted into HMM profiles. Applicants then used a constrained 2 iteration HMM profile search to generate highly specific HMM profiles and retrieve related systems as follows. Each ORF of size 150aa or greater, with one or more hits, was searched against all MINI profiles using HMMER3.1 and assigned to the profile that had the highest scoring match. For each system, ORFs with profile hits with less than 500 bp of intergenic distance on the same strand were grouped into candidate loci. For multi-protein systems, a putative locus was considered a hit if every signature gene profile for the system had a match in the locus with a bit score of at least 25. For single gene systems, a locus was considered a hit if the protein had a match to the system's single signature gene profile with a bit score of at least 50 and an alignment coverage of at least 70%. Signature proteins from the identified systems were separately clustered at 50% identity using MMseqs2 and subsequently aligned using MAFFT. The alignments were used to create a new set of signature gene profiles as input to the next iteration. For BREX and Type I RM, Applicants used preexisting pfam profiles for the signature genes in place of iterative MINI profile searching. The final abundance was calculated as the number of hits for the given system divided by the number of genomes (n).

Bacteria and phage strains. Phages T2, T3, T4, T5, T7, P1, λ, φV-1, M13, φX174, MS2, and Qβ, as well as host E. coli strains K-12 (ATCC25404) and C (ATCC13706), were obtained from the American Type Culture Collection (ATCC). The genome of phage φV-1, originally isolated from a measles vaccine (49, 50), was sequenced and found to be 92% similar to enterobacteria phage 285P, a T7-like phage (51).

Cloning. To facilitate experimental validation using coliphages, the source organism of each candidate defense system was chosen to be as phylogenetically similar as possible to E. coli, in particular, from other strains of E. coli whenever possible. Candidate defense systems were cloned into the low-copy plasmid pACYC184. When possible, genomic DNA from source organisms was obtained from ATCC, NCTC, or DSMZ, and the genes of interest were amplified with Q5 (New England Biolabs) or Phusion Flash (Thermo Scientific) polymerase, using primers with 5′ ends homologous to the ends of the plasmid backbone. Plasmids were assembled using the NEBuilder HiFi DNA Assembly mix (New England Biolabs). When the source organism was not readily available from public culture collections, genes were chemically synthesized (GenScript). When possible, the native promoter was retained. For source organisms outside of Enterobacteriaceae, or when the candidate system was operonized with other upstream genes, the system was placed under a bla or lac promoter.

Sequence verification of plasmids. The full sequences of all plasmids were verified by high-throughput sequencing. To prepare sequencing libraries, 25-50 ng of each plasmid was mixed with purified Tn5 transposome loaded with Illumina adapters and incubated at 55° C. for 10 min in the presence of 5 mM MgCl2 and 10 mM TAPS buffer (52). The quantity of Tn5 was titrated to generate an average fragment size of ˜100-400 bp. Tagmentation reactions were subsequently treated with 0.5 volumes of 0.1% sodium dodecyl sulfate for 5 min at room temperature and amplified with KAPA HiFi HotStart polymerase using primers containing 8 nt i7 and i5 index barcodes. Barcoded amplicons were sequenced on a MiSeq (Illumina) with at least 150 cycles for the forward read. Reads were aligned to the reference plasmid sequence by the Geneious read mapper, and error-free plasmids were retained for subsequent experiments.

Competent cell production. E. coli strains K-12 and C were cultured in ZymoBroth with 25 μg/mL chloramphenicol and made competent using Mix & Go buffers (Zymo) according to the manufacturer's recommended protocol.

Phage plaque assays. E. coli host strains were grown to saturation at 37° C. in Luria Broth (LB). To 10 mL top agar (10 g/L tryptone, 5 g/L yeast extract, 10 g/L NaCl, 7 g/L agar) was added chloramphenicol (final concentration 25 μg/mL) and 526 μL E. coli culture, and the mixture was poured on 10 cm LB-agar plates containing 25 μg/mL chloramphenicol. For phages T2, T4, T5, P1, λ, M13, MS2, and Qβ, dilutions of phage in phosphate buffered saline were spotted on the plates, and plaque counts were recorded after overnight incubation at 37° C. If individual plaques were too small to be counted, the most concentrated dilution at which no plaque formation was visible was recorded as having a single plaque. For phages T3, T7, φV-1, and φX174, a total of 3 of phage containing 5×10⁶ virions was spotted, and the area of the zone of lysis was measured after incubation at 37° C. for 68 hr. A total of 2-4 technical replicates was collected for each infection condition. Initial screening of defense system candidates was performed in E. coli K-12 (ATCC25404), excluding phage φX174 due to its inability to infect E. coli K-12; systems with observed defense activity were further tested as described above.

Phage cultivation. Phages T2, T3, T4, T7, φV-1, M13, φX174, MS2, and Qβ were propagated in liquid culture. The host E. coli strain for each phage was grown to an OD600 of 0.2 -0.4 at 37° C. in LB and infected with a slab of top agar containing phage plaque from a previous lysis. Cultures were grown overnight at 37° C. with 250 rpm agitation. Phages T5, P1, and λ were propagated by the double agar overlay method; after overnight incubation at 37° C., plaques were scraped in LB. For both liquid culture and double agar overlay, phage samples were centrifuged to pellet cellular debris, and the supernatant was filtered through with a 0.22 μm sterile filter.

Phage genome sequencing. DNA from phage φV-1 was isolated using QuickExtract DNA extraction solution (Epicentre) following the manufacturer's recommended protocol. After tagmentation and PCR amplification steps described earlier for plasmid sequence verification, the library was sequenced on a MiSeq with 200 cycles for the forward read and 110 cycles for the reverse read. Trimmed reads were assembled into contigs with SPAdes 3.13.0 using the—careful option, and contigs were subsequently scaffolded into a full genome using the genome sequence of enterobacteria phage 285P (51) as a reference.

Whole transcriptome sequencing. E. coli ATCC25404, containing either an empty vector or the candidate defense system, was grown to log phase in LB and diluted to an OD600 of 0.2. The culture was then split into two tubes, one of which was infected with phage T2 at an estimated MOI of 2. Both subcultures were incubated at 37° C. for 1 hr with 250 rpm agitation. RNA was extracted using TRIzol Reagent (Thermo Fisher Scientific) and treated with DNAse I, followed by a RiboMinus ribosomal RNA depletion kit (Thermo). Sequencing libraries were prepared using NEB Ultra II directional RNAseq library prep kit (New England Biolabs) and paired-end sequenced (2×75 cycles) with a NextSeq (Illumina). Adapter sequences were trimmed from sequencing reads using CutAdapt (with parameters—trim-n-q 20-m 20-a AGATCGGAAGAGC-A AGATCGGAAGAGC (SEQ ID NO: 472)), and trimmed reads were aligned to the E. coli MG1655 reference genome using the Geneious read mapper.

Phage fragmentation. Phage fragments were amplified from the genome of phage T2 by PCR, cloned into an ampicillin-resistant plasmid after an IPTG-inducible T7 promoter, and sequenced verified as previously described. Each fragment was then transformed into NovaBlue(DE3) E. coli expressing the Citrobacter rodentium RADAR system. Independent colonies for each fragments were grown to saturation at 37° C. in LB with 25 μg/mL chloramphenicol and 100 μg/mL ampicillin. Cultures were then diluted 1 to 5 in the same media, and IPTG was added to a final concentration of 0.5 mM. After 4 h growth at 37° C., cells were pelleted by centrifugation, and total RNA was extracted by a Direct-zol RNA purification kit (Zymo). The E. coli tmRNA was subsequently amplified by RT-PCR (QuantBio) and sequenced with a MiSeq (Illumina).

E. coli growth kinetics. Cells were grown to log phase in LB and diluted to an OD600 of 0.2. Cultures were infected with phage T2 at varying MOI at grown at 37° C., and the OD600 was measured every 2 min for a total duration of 4 hr on a Synergy Neo2 plate reader (BioTek).

Classification of phage genes. Phage T2 genes were classified as putative early, middle, or late genes based on the closest promoter on the same strand, as annotated based on the genome of phage T4 (53). Genes that could not be unambiguously classified were labeled as unknown.

RNA secondary structure prediction. Minimum free energy RNA secondary structures were predicted using the Turner (2004) energy parameters at 37° C. (54).

Prophage analysis. Prophage and phage DNA sequences were downloaded from PHASTER (55, 56). All clusters (seed gene plus identified homologs) with hits matching the experimentally validated systems, as well as one cluster matching the rexA gene of phage lambda as a positive control, were searched against the PHASTER database with tblastn for near identical matches (≥95% identity). For each cluster, phage association frequency was calculated as the number of proteins in the cluster with unique matches to the PHASTER database divided by the total number of unique proteins in the cluster (number of proteins after clustering at 90% sequence identity). The cutoff for frequent phage association of a system was defined as half of the frequency for rexA. Applicants note that PHASTER does not predict all instances of prophages and prophage remnants, and Applicants have also considered an alternative approach of identifying prophage association based on proximity to integrases, which may allow a greater number of prophages to be identified. However, a challenge with the latter approach is that defense islands often appear to derive from mobile genetic elements other than prophages and contain many integrases that originate from non-phage sources (e.g., CRISPR-associated transposases (57, 58)), leading to a high rate of false positives. The use of PHASTER provided the advantage of substantially reducing the false positives that would otherwise be expected for an approach based on integrase association.

Computational analysis of the RT (UG1) nitrilase domain. Homologs of the RT (UG1) defense gene were identified with a PSIBLAST search seeded on the experimentally validated sequence (WP_115196278.1), and highly similar homologs (≥90% identity) were removed. An MSA of the nitrilase domain was then created using MAFFT, and a custom position-specific scoring matrix (PSSM) was derived from this alignment. Bacterial and archaeal proteins in Genbank (redundancy-reduced at 98% sequence identity and coverage) were then searched against this profile with RPSBLAST, and the E-values of proteins with a match covering a minimum of 20% of the length of the profile were recorded. Known nitrilase enzymes were identified using a separate RPSBLAST search against the same set of Genbank proteins using 36 PSSMs from the CDD database (E-value≤10⁻⁶; minimum 40% profile coverage): cd07197, cd07564, cd07565, cd07566, cd07567, cd07568, cd07569, cd07570, cd07571, cd07572, cd07573, cd07574, cd07575, cd07576, cd07577, cd07578, cd07579, cd07580, cd07581, cd07582, cd07583, cd07584, cd07585, cd07586, cd07587, COG0388, pfam00795, PLN02504, PLN02747, PLN02798, PRK10438, PRK13286, PRK13825, TIGR00546, TIGR03381, and TIGR04048.

Establishing an abi response. Abortive infection (abi) systems, which are based on altruistic cell suicide or dormancy (59), typically induce non-specific or deleterious biochemical activity targeting the host cell that also interferes with the phage reproduction cycle. Abi responses can be characterized through traditional assays such as efficiency of the center of infection (ECOI), adsorption, host survival, and one-step growth curve measurements. However, because the events of phage DNA injection and expression of toxic early genes are likely to be deleterious to an infected cell even if the production of progeny phages is ultimately suppressed, these assays may not be informative in terms of distinguishing between abi vs. non-abi mechanisms. An alternative approach to establishing the existence of an abi response is to identify the biochemical activity of the defense system, which Applicants have focused on for the RADAR system.

Gene knockouts vs. heterologous reconstitution. To further assess the feasibility of performing knockout experiments in the source bacterial strains for each defense system, Applicants performed analyses which suggested that different defense systems with overlapping phage specificities often co-occur. For instance, E. coli strain DSM5212 contains both BREX type I and Druantia type I (FIG. 2D), both of which were included as positive controls; if BREX were to be knocked out in this strain, the presence of Druantia would likely ensure that its phage resistance profile across the 12 phages in Applicants' assay would remain unchanged. Similarly, the SIR2+HerA system from E. coli strain NCTC11129 primarily confers resistance to phage lambda (FIG. 2D); the source strain NCTC11129 additionally contains BREX type I, which also confers resistance against phage lambda. Collectively, these observations suggested that the knockout of a single defense system may not be sufficient to make its corresponding source strain phage-sensitive, motivating the use of heterologous reconstitution as the primary assay for defense activity.

TABLE 9 List of validated defense systems and their domain architectures. # WT Mutants Type Name Domain Architecture*  1 FIG. 17D FIG. 19B Retron Retron-TIR RT_etron-TIR  2 FIG. 17D FIG. 19B Retron Ec67 RT_retron-TOPRIM  3 FIG. 17D FIG. 19B Retron Ec86 Nuc_deoxy + RT_retron  4 FIG. 17D FIG. 29C Retron Ec78 RT_retron + ATPase_AAA + HNH  5 FIG. 17D FIG. 19B RT DRT type 1 RT_UG1-nitrilase  6 FIG. 17D FIG. 29A RT DRT type 2 RT_UG2  7 FIG. 17D FIG. 19B RT DRT type 3 RT_UG3 + RT_UG8  8 FIG. 17D FIG. 29B RT DRT type 4 RT_UG15  9 FIG. 17D FIG. 19B RT DRT type 5 RT_UG16 10.A FIG. 17D FIG. 18B RNA RADAR ATPase_AAA + ADA 10.B FIG. 18B FIG. 18B RNA RADAR ATPase_AAA + ADA 11 FIG. 17D FIG. 20 RNA apeA RNase_ApeA 12 FIG. 17D FIG. 20 STAND AVAST type 1 MBL + Protease_S1-ATPase_STAND 13 FIG. 17D FIG. 20 STAND AVAST type 2 ATPase_STAND 14 FIG. 17D FIG. 20 STAND AVAST type 3 Nuclease_DUF4297-ATPase_STAND 15 FIG. 17D FIG. 20 STAND AVAST type 4 Nuclease_Mrr-ATPase_STAND 16 FIG. 17D FIG. 20 STAND AVAST type 5 SIR2-ATPase_STAND 17 FIG. 17D FIG. 20 Other dsr1 SIR2-DUF4020 18 FIG. 17D FIG. 20 Other dsr2 SIR2 19 FIG. 17D FIG. 20 Other SIR2 + HerA SIR2 + Helicase_HerA 20 FIG. 17D FIG. 20 Other DUF4297 + Nuclease_DUF4297 + Helicase_HerA HerA 21 FIG. 17D FIG. 20 Other tmn ATPase_AAA_TM 22 FIG. 17D FIG. 20 Other qatABCD ATPase_AAA + QueC + DNase_TatD 23 FIG. 17D FIG. 20 Other hhe HEPN_DUF4011-Helicase_SF1_Dna2- Nuclease_Vsr-DUF3320 24 FIG. 17D — Other mzaABCDE Ankyrin-sigma + ATPase_MutL + ATPase_AAA-Z1 + Nuclease_DUF4420 + AIPR 25 FIG. 17D FIG. 20 Other TerY-P vWA + phosphatase_PP2C + STK-OB 26 FIG. 17D FIG. 20 Other upx Nuclease_DUF1887 27 FIG. 17D FIG. 20 Other ppl Phosphoesterase_PHP-ATPase_SMC 28 FIG. 17D FIG. 20 Other ietAS** ATPase_AAA + Protease_S8 29 FIG. 17D FIG. 20 Other Restriction- ATPase_DUF499 + DUF3780 + like system Methylase_DUF1156 + Nuclease_PLD- Helicase_HepA *Dashes (-) indicated domain fusions and (+) represents separate proteins. **ietAS is also a previously-described plasmid stabilization toxin-antitoxin system (60).

TABLE 10 Source organism strains of validated defense systems and controls. # Source Organism Strain Promoter Codon Genes bp BREX Escherichia coli DSM5212 Native Native 6 13703 type I Druantia Escherichia coli DSM5212 Native Native 5 11823 type I RT-Abi-P2 Escherichia coli ECOR30 Native Native 1 1921 1 Shigella dysenteriae NCTC2966 Native Native 1 2064 2 Escherichia coli NCTC8623 Native Native 1 2038 3 Escherichia coli BL21 Native Native 2 2188 4 Escherichia coli ECONIH5 Native Native 3 3551 5 Klebsiella pneumoniae NCTC9143 Native Native 2 4451 6 Salmonella enterica NCTC8273 Native Native 1 1780 7 Escherichia coli ECOR12 Native Native 2 4995 8 Escherichia coli 21-C8-A Native Human 1 1838 9 Escherichia coli KTE25 Native Native 1 1608 10.A Citrobacter rodentium DBS100 Native Native 2 5526 10.B Pluralibacter gergoviae ATCC33028 Native Native 3 6689 11 Escherichia coli NCTC8008 Native Native 1 1981 12 Erwinia piriflorinigrans CFBP5888 bla Native 3 7246 13 Escherichia coli NCTC9087 Native Native 1 5109 14 Salmonella enterica NCTC13175 Native Native 2 7175 15 Escherichia coli NCTC11132 Native Native 1 4964 16 Escherichia coli NCTC13384 Native Native 1 3411 17 Escherichia coli NCTC9112 Native Native 1 4212 18 Cronobacter sakazakii NCTC8155 Native Native 1 4329 19 Escherichia coli NCTC11129 Native Native 2 3308 20 Escherichia coli NCTC11131 Native Native 2 3419 21 Escherichia coli ECOR25 Native Native 1 4415 22 Escherichia coli NCTC9009 Native Native 4 5408 23 Escherichia coli ATCC43886 Native Native 1 5958 24 Salmonella enterica NCTC5773 Native Native 5 9416 25 Citrobacter gillenii NCTC9094 Native Native 3 3605 26 Salmonella enterica NCTC6026 Native Native 1 4100 27 Escherichia coli NCTC8620 Native Native 1 3066 28 Escherichia coli ECOR52 Native Native 2 3676 29 Escherichia coli ECOR58 Native Native 4 9809

TABLE 11 PCR primers used to amplify validated defense systems and controls. # dfd Sequence BREX Fwd gctaacttacattaattgcgttgcgcaACAGCACCACGTTCATCTTCC type I (SEQ ID NO: 14) Rev ccaaggggttatgctagttattgcgGTTCATTAAAATAGTTACTACGTTAATTCACACCC (SEQ ID NO: 215) Druantia Fwd gctaacttacattaattgcgttgcgcaGGTGAACGTTTGGTTGATAGGG type I (SEQ ID NO: 216) Rev ccaaggggttatgctagttattgcgCTCAATGGGCATAATTTTACATTGTGC (SEQ ID NO: 217) RT-Abi- Fwd gctaacttacattaattgcgttgcgcaACATCCCGTCATCATGCCATC P2 (SEQ ID NO: 218) Rev ccaaggggttatgctagttattgcgCTCCTCGGAATAGAATGTTATGTTCG (SEQ ID NO: 219)  1 Locus synthesized  2 Fwd gctaacttacattaattgcgttgcgcaCGCGCTATCACGTAAAATAGGC (SEQ ID NO: 220) Rev ccaaggggttatgctagttattgcgCGAAAAATCAGCCTTAGCGTTCATAAC (SEQ ID NO: 221)  3 Fwd gctaacttacattaattgcgttgcgcaGCTCATGTTATGCATGTGCATG (SEQ ID NO: 222) Rev ccaaggggttatgctagttattgcgATTAGGTCTTCGCTTTATTTAAAGGGTTC (SEQ ID NO: 223)  4 Locus synthesized  5 Fwd gagctaacttacattaattgcgttgcgcaGTCCTTAAACACGACAAAACCTGTG (SEQ ID NO: 224) Rev cccaaggggttatgctagttattgcgCGCAATGTAACACCCACCC (SEQ ID NO: 225)  6 Locus synthesized  7 Fwd gctaacttacattaattgcgttgcgcaTCTCAACTTCCCCAAATGTCCG (SEQ ID NO: 226) Rev cccaaggggttatgctagttattgcgTTAGCAAAATACGCCCACGAAGTC (SEQ ID NO: 227)  8 Locus synthesized  9 Locus synthesized 10.A Fwd gctaacttacattaattgcgttgcgcaGAGGATTTATGCACAAAATCCTGATGC (SEQ ID NO: 228) Rev ccaaggggttatgctagttattgcgGATTTAATCTGTTGTTCCGAACGG (SEQ ID NO: 229) 10.B Fwd gctaacttacattaattgcgttgcgcaTGTGGTTAGTTATCACAGCACTAACC (SEQ ID NO: 230) Rev ccaaggggttatgctagttattgcgGTGTATAAGAATCCGAGACCGAAC (SEQ ID NO: 231) 11 Locus synthesized 12 Fwd ataaatgctcaataatattgaaaaaggaagagtATGGTAGCGATAAAAATGTATCCGGC (SEQ ID NO: 232) Rev cccaaggggttatgctagttattgcgTCAATCCGTAGCCTCTTCATTCTCG (SEQ ID NO: 233) 13 Fwd gctaacttacattaattgcgttgcgcaGGGATTTCCACCACCTCCC (SEQ ID NO: 234) Rev ccaaggggttatgctagttattgcgTGCATAGCAATGAAGATAAACGTG (SEQ ID NO: 235) 14 Fwd gctaacttacattaattgcgttgcgcaACAATTTTTTGCCATAAGACGCTTTC (SEQ ID NO: 236) Rev ccaaggggttatgctagttattgcgCATTAGGACTAGTAGAAAAGTCTTGGG (SEQ ID NO: 237) 15 Fwd gctaacttacattaattgcgttgcgcaGCGCAGCTGACAAAGATTGAC (SEQ ID NO: 238) Rev ccaaggggttatgctagttattgcgCGATAATAAAAAGGCTCCAATCCCTG (SEQ ID NO: 239) 16 Fwd gctaacttacattaattgcgttgcgcaACTAGCTAAGCAATAAGGGCG (SEQ ID NO: 240) Rev ccaaggggttatgctagttattgcgCAATCTCCGAGGTGGCCC (SEQ ID NO: 241) 17 Fwd gctaacttacattaattgcgttgcgcaTATTTTGCGTAGCTAGAACGCAATC (SEQ ID NO: 242) Rev ccaaggggttatgctagttattgcgTGGGTATTAGCTCATATCAGAACTAATACCC (SEQ ID NO: 243) 18 Fwd gctaacttacattaattgcgttgcgcaGTAAGACAAGGGTTGAGCAGGC (SEQ ID NO: 244) Rev ccaaggggttatgctagttattgcgCAATGGTGGGCTGATTAATTAGATGAG (SEQ ID NO: 245) 19 Fwd gctaacttacattaattgcgttgcgcaTAGCTATTGTGACTATGCTAACCATATG (SEQ ID NO: 246) Rev ccaaggggttatgctagttattgcgTTCAGTCTAAATACATACCTGTCGGG (SEQ ID NO: 247) 20 Fwd gctaacttacattaattgcgttgcgcaGTGCGCCTTATGTGATTACAACG (SEQ ID NO: 248) Rev ccaaggggttatgctagttattgcgCTCTCAGCCTAATGATTCCAGAATAG (SEQ ID NO: 249) 21 Fwd gctaacttacattaattgcgttgcgcaACCGTGCTGGCATGTTTTTAC (SEQ ID NO: 250) Rev ccaaggggttatgctagttattgcgAGGAAGATCCGTGACCAGGAG (SEQ ID NO: 251) 22 Fwd gctaacttacattaattgcgttgcgcaGAAATTATTTGGAATGGATGATGGCG (SEQ ID NO: 252) Rev ccaaggggttatgctagttattgcgACTTCTACCTCCCTTTAGAAAAGTTAATG (SEQ ID NO: 253) 23 Fwd gctaacttacattaattgcgttgcgcaCGGATTGAATCTGTTTATGAAATTTGGCTG (SEQ ID NO: 254) Rev ccaaggggttatgctagttattgcgCCGACAGTTGTCACTGTTCTTATTACC (SEQ ID NO: 255) 24 Fwd tgagctaacttacattaattgcgttgcgcaATGATGAAGATCACCTAAAATGATAGGTTG (SEQ ID NO: 256) Rev cccaaggggttatgctagttattgcgCAGCTGTTAATTGTATATTGATGCGATGC (SEQ ID NO: 257) 25 Fwd gctaacttacattaattgcgttgcgcaCGTGATGAATGAAGCGGCTAAATAC (SEQ ID NO: 258) Rev ccaaggggttatgctagttattgcgGTAAATCCTCGGGAAAACACAGG (SEQ ID NO: 259) 26 Fwd gctaacttacattaattgcgttgcgcaGGGCTGTTTGGTTGAATTAAAAATACG (SEQ ID NO: 260) Rev ccaaggggttatgctagttattgcgCCTTGATTTAAAACTATCAGTAGTAGGAACG (SEQ ID NO: 261) 27 Fwd gctaacttacattaattgcgttgcgcaGATGGACTGGTACTGTAGATTCACC (SEQ ID NO: 262) Rev ccaaggggttatgctagttattgcgCAAAGACGCAGAGGCCATCAG (SEQ ID NO: 263) 28 Fwd gctaacttacattaattgcgttgcgcaATAGAACGATGAAGGATGGAAGCTAC (SEQ ID NO: 264) Rev ccaaggggttatgctagttattgcgTTGTATTTTGTTGTGTATGGGCGG (SEQ ID NO: 265) 29 Fwd gctaacttacattaattgcgttgcgcaCGTGATTCAGTTCGCCAGAC (SEQ ID NO: 266) Rev ccaaggggttatgctagttattgcgCACTCGAAATGGATACCCTGAG (SEQ ID NO: 267)

TABLE 12 Protein accession numbers of defense system components (proposed gene names underlined). # Gene Name Protein Accession BREX A brxA WP_085962535.1* type I B brxB WP_000566901.1 C brxC WP_001019648.1 D pglX WP_021524842.1 E pglZ WP_001180895.1 F brxL WP_001193074.1 Druantia A druA WP_000549798.1 type I B druB WP_001315973.1 C druC WP_021520530.1 D druD WP_000455180.1 E druE WP_000608843.1 RT-Abi-P2 A — WP_047657908.1 1 A — WP_005025120.1* 2 A Ec67 WP_000169432.1 3 A — WP_001034589.1 B Ec86 WP_001320043.1 4 A Ec78 WP_001549208.1 B ptuA WP_001549209.1 C ptuB WP_001549210.1 5 A drt1a WP_115196278.1 B drt1b WP_040189938.1 6 A drt2 WP_012737279.1 7 A drt3a WP_087902017.1 B drt3b WP_062891751.1 8 A drt4 GCK53192.1 9 A drt5 WP_001524904.1 10.A A rdrA WP_012906049.1 B rdrB WP_012906048.1 10.B A rdrA WP_155731552.1 B rdrB WP_064360593.1 C rdrD WP_064360592.1 11 A apeA WP_000706972.1 12 A avs1a WP_023654314.1 B avs1b WP_084007836.1* 12 C avs1c WP_023654316.1 13 A avs2 WP_063118745.1 14 A avs3a WP_126523998.1 B avs3b WP_126523997.1* 15 A avs4 WP_044068927.1 16 A avs5 WP_001515187.1 17 A dsr1 WP_029488749.1 18 A dsr2 WP_015387030.1* 19 A — WP_021577683.1 B herA WP_021577682.1 20 A — WP_016239654.1 B herA WP_016239655.1 21 A tmn WP_001683567.1 22 A qatA STG85056.1 B qatB STG85057.1 C qatC STG85058.1 D qatD STG85059.1 23 A hhe WP_032200272.1 24 A mzaA VEA06816.1* B mzaB VEA06814.1 C mzaC VEA06812.1 D mzaD VEA06810.1 E mzaE VEA06808.1 25 A terY WP_115257868.1 B — WP_115257869.1 C — WP_115257870.1 26 A upx WP_060647174.1 27 A ppl STM52149.1 28 A ietA WP_000385105.1 B ietS WP_001551050.1 29 A — WP_000860009.1 B — WP_001044652.1 C — WP_001207938.1 D — WP_000985714.1 *Probable error in annotated protein start position corrected.

TABLE 13 Predicted protein domains within validated defense systems and controls. Transmembrane helices were predicted using TMHMM, and all other domains were predicted using HHpred. Representative ID Gene Residues Domain HHpred Hit Probability Start End BREX A 201 DUF1819 PF08849.11 100 6 189 type I B 200 DUF1788 PF08747.11 100 65 187 C 1213 ATPase PF07693.14 96.66 43 348 DUF499 PF04465.12 99.88 247 846 D 1201 Methyltransferase PF02384.16 99.7 210 622 E 865 PglZ PF08665.12 99.12 474 650 F 694 Lon protease PF13337.6 100 30 484 Lon protease PF05362.13 99.9 486 693 Druantia A 404 DUF4338 PF14236.6 99.92 45 339 type I B 548 CoiA PF06054.11 99.77 1 182 C 627 Macoilin PF09726.9 96.72 167 323 D 347 (none) — — — — E 1836 Helicase PF00270.29 98.45 99 388 Helicase 5V9X_A 97.55 1071 1208 DUF1998 PF09369.10 98.92 1626 1710 RT-Abi-P2 A 515 RT PF00078.27 99.09 68 291 1 A 542 RT PF00078.27 99.43 105 309 TIR PF13676.6 97.91 411 536 2 A 586 RT PF00078.27 99.45 48 262 TOPRIM cd01026 96.88 367 465 3 A 307 Nuc_deoxy PF15891.5 96.04 29 128 B 320 RT PF00078.27 99.52 53 248 4 A 311 RT PF00078.27 99.37 34 241 B 550 ATPase PF13175.6 99.8 64 432 C 216 HNH PF01844.23 97.57 43 85 5 A 1232 RT PF00078.27 99.06 80 382 Nitrilase PF00795.22 98.89 953 1216 B 144 Transmembrane — — 4 26 6 A 425 RT PF00078.27 99.63 54 328 7 A 398 RT PF00078.27 99.39 53 251 B 667 RT PF00078.27 98.96 63 323 8 A 540 RT PF00078.27 99.12 67 296 9 A 494 RT PF00078.27 99.14 59 263 10.A A 851 ATPase PF07693.14 99.6 33 364 B 856 Adenosine PF00962.22 99.52 166 831 deaminase 10.B A 907 ATPase PF07693.14 99.48 29 349 B 914 Adenosine PF00962.22 97.63 789 901 deaminase C 245 SLATT PF18183.1 96.01 120 241 Transmembrane — — 44 63 Transmembrane — — 78 100 Transmembrane — — 127 146 Transmembrane — — 151 168 11 A 601 HEPN PF18739.1 86.57 507 532 12 A 386 MBL-fold hydrolase PF00753.27 98.79 8 324 B 1935 Protease PF02122.15 98.23 2 187 ATPase PF14516.6 99.36 204 535 C 93 (none) — — — — 13 A 1484 ATPase PF14516.6 98.93 316 643 14 A 2092 DUF4297 PF14130.6 98.41 8 223 ATPase PF14516.6 99.44 250 597 B 207 (none) — — — — 15 A 1587 Mrr PF13156.6 97.05 17 162 ATPase PF14516.6 99.07 204 476 16 A 769 SIR2 cd00296 99.26 22 244 ATPase PF14516.6 97.6 312 464 17 A 1275 SIR2 cd00296 99.44 21 253 DUF4020 PF13212.6 98.39 1114 1268 18 A 1207 SIR2 cd00296 99.47 21 240 19 A 415 SIR2 cd00296 99.59 26 338 B 610 HerA helicase 4D2I_B 100 10 608 20 A 394 DUF4297 PF14130.6 99.05 1 191 B 571 HerA helicase 4D2I_B 100 7 568 21 A 1273 ATPase PF07693.14 97.62 39 390 Transmembrane — — 160 177 Transmembrane — — 199 218 22 A 643 ATPase PF07693.14 99.8 15 385 B 274 (none) — — — — C 457 QueC PF06508.13 99.67 150 369 D 263 TatD DNase PF01026.21 99.94 13 254 23 A 1911 DUF4011 PF13195.6 99.81 33 308 ATPase PF13086.6 97.93 427 552 Helicase PF01443.18 97.82 1379 1636 Endonuclease PF18741.1 98.7 1683 1780 DUF3320 PF11784.8 98.1 1841 1885 24 A 679 Ankyrin repeat COG0666 99.52 10 188 Sigma COG1191 99.81 411 657 B 500 MutL COG0323 99.81 1 352 C 952 ATPase PF13872.6 97.51 117 349 Z1 PF10593.9 100 437 672 D 342 DUF4420 PF14390.6 100 9 317 E 601 AIPR PF10592.9 100 245 562 25 A 277 vWA PF00092.28 98.93 14 203 B 239 Phosphatase PF00481.21 99.74 5 232 C 561 Kinase PF00069.25 100 34 296 ssDNA-binding PF01336.25 96.18 344 435 26 A 1272 DUF1887 PF09002.11 92.5 1105 1272 27 A 891 PHP cd07436 99.36 4 238 ATPase PF13166.6 99.74 266 836 28 A 384 ATPase PF13654.6 97.36 5 349 B 754 Protease PF00082.22 99.87 264 561 29 A 1022 ATPase PF07693.14 96.47 49 312 DUF499 PF04465.12 100 79 745 B 195 DUF3780 PF12635.7 100 1 187 C 945 DUF1156 PF06634.12 99 18 81 Methyltransferase PF01555.18 96.08 150 202 Methyltransferase PF01555.18 97.76 548 682 D 907 PLD cd09179 99.17 4 177 Helicase 6BOG_B 100 218 865

TABLE 14 Sequence of vector backbone. Inserts were cloned between the HindIII and EcoRI restriction sites (underlined). CCCGCGCCCACCGGAAGGAGCTGACTGGGTTGAAGGCTCTCAAGGGCATC GGTCGAGATCCCGGTGCCTAATGAGTGAGCTAACTTACATTAATTGCGTT GCGC AAGCTT CTGCA GAATTC GCAATAACTAGCATAACCCCTTGGGGCCT CTAAACGGGTCTTGAGGGGTTTTTTGCTGAAACCTCAGGCATTTGAGAAG CACACGGTCACACTGCTTCCGGTAGTCAATAAACCGGTAAACCAGCAATA GACATAAGCGGCTATTTAACGACCCTGCCCTGAACCGACGACCGGGTCGA ATTTGCTTTCGAATTTCTGCCATTCATCCGCTTATTATCACTTATTCAGG CGTAGCACCAGGCGTTTAAGGGCACCAATAACTGCCTTAAAAAAATTACG CCCCGCCCTGCCACTCATCGCAATACTGTTGTAATTCATTTAACATTCTG CCGACATGGAAGCCATCACAGACGGCATGATGAACCTGAATCGCCAGCGG CATCAGCACCTTGTCGCCTTGCGTATAATATTTGCCCATAGTGAAAACGG GGGCGAAGAAGTTGTCCATATTGGCCACGTTTAAATCAAAACTGGTGAAA CTCACCCAGGGATTGGCTGAGACGAAAAACATATTCTCAATAAACCCTTT AGGGAAATAGGCCAGGTTTTCACCGTAACACGCCACATCTTGCGAATATA TGTGTAGAAACTGCCGGAAATCGTCGTGGTATTCACTCCAGAGCGATGAA AACGTTTCAGTTTGCTCATGGAAAACGGTGTAACAAGGGTGAACACTATC CCATATCACCAGCTCACCGTCTTTCATCGCCATACGGAACTCTGGATGAG CATTCATCAGGCGGGCAAGAATGTGAATAAAGGCCGGATAAAACTTGTGC TTATTTTTCTTTACGGTCTTTAAAAAGGCCGTAATATCCAGCTGAACGGT CTGGTTATAGGTACATTGAGCAACTGACTGAAATGCCTCAAAATGTTCTT TACGATGCCATTGGGATATATCAACGGTGGTATATCCAGTGATTTTTTTC TCCATTTTAGCTTCCTTAGCTCCTGAAAATCTCGATAACTCAAAAAATAC GCCCGGTAGTGATCTTATTTCATTATGGTGAAAGTTGGAACCTCTTACGT GCCGATCAACGTCTCATTTTCGCCAAAAGTTGGCCCAGGGCTTCCCGGTA TCAACAGGGACACCAGGATTTATTTATTCTGCGAAGTGATCTTCCGTCAC AGGTATTTATTCGGCGCAAAGTGCGTCGGGTGATGCTGCCAACTTACTGA TTTAGTGTATGATGGTGTTTTTGAGGTGCTCCAGTGGCTTCTGTTTCTAT CAGCTGTCCCTCCTGTTCAGCTACTGACGGGGTGGTGCGTAACGGCAAAA GCACCGCCGGACATCAGCGCTAGCGGAGTGTATACTGGCTTACTATGTTG GCACTGATGAGGGTGTCAGTGAAGTGCTTCATGTGGCAGGAGAAAAAAGG CTGCACCGGTGCGTCAGCAGAATATGTGATACAGGATATATTCCGCTTCC TCGCTCACTGACTCGCTACGCTCGGTCGTTCGACTGCGGCGAGCGGAAAT GGCTTACGAACGGGGCGGAGATTTCCTGGAAGATGCCAGGAAGATACTTA ACAGGGAAGTGAGAGGGCCGCGGCAAAGCCGTTTTTCCATAGGCTCCGCC CCCCTGACAAGCATCACGAAATCTGACGCTCAAATCAGTGGTGGCGAAAC CCGACAGGACTATAAAGATACCAGGCGTTTCCCCCTGGCGGCTCCCTCGT GCGCTCTCCTGTTCCTGCCTTTCGGTTTACCGGTGTCATTCCGCTGTTAT GGCCGCGTTTGTCTCATTCCACGCCTGACACTCAGTTCCGGGTAGGCAGT TCGCTCCAAGCTGGACTGTATGCACGAACCCCCCGTTCAGTCCGACCGCT GCGCCTTATCCGGTAACTATCGTCTTGAGTCCAACCCGGAAAGACATGCA AAAGCACCACTGGCAGCAGCCACTGGTAATTGATTTAGAGGAGTTAGTCT TGAAGTCATGCGCCGGTTAAGGCTAAACTGAAAGGACAAGTTTTGGTGAC TGCGCTCCTCCAAGCCAGTTACCTCGGTTCAAAGAGTTGGTAGCTCAGAG AACCTTCGAAAAACCGCCCTGCAAGGCGGTTTTTTCGTTTTCAGAGCAAG AGATTACGCGCAGACCAAAACGATCTCAAGAAGATCATCTTATTAATCAG ATAAAATATTTCTAGATTTCAGTGCAATTTATCTCTTCAAATGTAGCACC TGAAGTCAGCCCCATACGATATAAGTTGTAATTCTCATGTTAGTCATGC (SEQ ID NO: 268)

TABLE 15-A Sequences of validated defense systems (sequences shown in Tables 15-B and C) Row Source Gene No. # Name Description Organism Strain bp Gene Name Accession Residues 1 Control BREX type I — Escherichia coli DSM5212 13703 A brxA WP_085962535.1* 201 2 B brxB WP_000566901.1 200 3 C brxC WP_001019648.1 1213 4 D pglX WP_021524842.1 1201 5 E pglZ WP_001180895.1 865 6 F brxL WP_001193074.1 694 7 Control Druantia type I — Escherichia coli DSM5212 11823 A druA WP_000549798.1 404 8 B druB WP_001315973.1 548 9 C druC WP_021520530.1 627 10 D druD WP_000455180.1 347 11 E druE WP_000608843.1 1836 12 Control RT-Abi-P2 — Escherichia coli ECOR30 1921 A WP_047657908.1 515 13 1 — Retron-TIR Shigella NCTC2966 2064 A WP_005025120.1* 542 dysenteriae 14 2 Ec67 Retron-TOPRIM Escherichia coli NCTC8623 2038 A Ec67 WP_000169432.1 586 15 3 Ec86 Nuc_deoxy + Escherichia coli BL21 2188 A WP_001034589.1 307 16 retron B Ec86 WP_001320043.1 320 17 4 Ec78 Retron + ATPase + Escherichia coli ECONIH5 3551 A Ec78 WP_001549208.1 311 18 HNH B ptuA WP_001549209.1 550 19 C ptuB WP_001549210.1 216 20 5 DRT type 1 RT-nitrilase (UG1) Klebsiella NCTC9143 4451 A drt1a WP_115196278.1 1232 21 pneumoniae B drt1b WP_040189938.1 144 22 6 DRT type 2 RT (UG2) Salmonella NCTC8273 1780 A drt2 WP_012737279.1 425 enterica 23 7 DRT type 3 RT (UG3) + RT Escherichia coli ECOR12 4995 A drt3a WP_087902017.1 398 24 (UG8) B drt3b WP_062891751.1 667 25 8 DRT type 4 RT (UG15) Escherichia coli 21-C8-A 1838 A drt4 GCK53192.1 540 26 9 DRT type 5 RT (UG16) Escherichia coli KTE25 1608 A drt5 WP_001524904.1 494 27 10.A RADAR ATPase + Citrobacter DBS100 5526 A rdrA WP_012906049.1 851 28 deaminase rodentium B rdrB WP_012906048.1 856 29 10.B RADAR ATPase + Pluralibacter ATCC33028 6689 A rdrA WP_155731552.1 907 30 deaminase gergoviae B rdrB WP_064360593.1 914 31 C rdrD WP_064360592.1 245 32 11 apeA ApeA (HEPN) Escherichia coli NCTC8008 1981 A apeA WP_000706972.1 601 33 12 AVAST MBL + protease- Erwinia CFBP5888 7246 A avs1a WP_023654314.1 386 34 type 1 STAND piriflorinigrans B avs1b WP_084007836.1* 1935 35 C avs1c WP_023654316.1 93 36 13 AVAST STAND Escherichia coli NCTC9087 5109 A avs2 WP_063118745.1 1484 type 2 37 14 AVAST DUF4297-STAND Salmonella NCTC13175 7175 A avs3a WP_126523998.1 2092 38 type 3 enterica B avs3b WP_126523997.1* 207 39 15 AVAST Mrr-STAND Escherichia coli NCTC11132 4964 A avs4 WP_044068927.1 1587 type 4 40 16 AVAST SIR2-STAND Escherichia coli NCTC13384 3411 A avs5 WP_001515187.1 769 type 5 41 17 dsr1 SIR2-DUF4020 Escherichia coli NCTC9112 4212 A dsr1 WP_029488749.1 1275 42 18 dsr2 SIR2 Cronobacter NCTC8155 4329 A dsr2 WP_015387030.1* 1207 sakazakii 43 19 — SIR2 + HerA Escherichia coli NCTC11129 3308 A WP_021577683.1 415 44 B herA WP_021577682.1 610 45 20 — DUF4297 + HerA Escherichia coli NCTC11131 3419 A WP_016239654.1 394 46 B herA WP_016239655.1 571 47 21 tmn Transmembrane Escherichia coli ECOR25 4415 A tmn WP_001683567.1 1273 ATPase 48 22 qatABCD ATPase + QueC + Escherichia coli NCTC9009 5408 A qatA STG85056.1 643 49 TatD B qatB STG85057.1 274 50 C qatC STG85058.1 457 51 D qatD STG85059.1 263 52 23 hhe DUF4011-helicase- Escherichia coli ATCC43886 5958 A hhe WP_032200272.1 1911 Vsr 53 24 mzaABCDE MutL + Z1 + Salmonella NCTC5773 9416 A mzaA VEA06816.1* 679 54 DUF + AIPR enterica B mzaB VEA06814.1 500 55 C mzaC VEA06812.1 952 56 D mzaD VEA06810.1 342 57 E mzaE VEA06808.1 601 58 25 TerY-P vWA + PP2C + Citrobacter NCTC9094 3605 A terY WP_115257868.1 277 59 STK-OB gillenii B WP_115257869.1 239 60 C WP_115257870.1 561 61 26 upx DUF1887 Salmonella NCTC6026 4100 A upx WP_060647174.1 1272 enterica 62 27 ppl Phosphoesterase- Escherichia coli NCTC8620 3066 A ppl STM52149.1 891 ATPase 63 28 ietAS ATPase + protease Escherichia coli ECOR52 3676 A ietA WP_000385105.1 384 64 B ietS WP_001551050.1 754 65 29 — Restriction-like Escherichia coli ECOR58 9809 A WP_000860009.1 1022 66 system B WP_001044652.1 195 67 C WP_001207938.1 945 68 D WP_000985714.1 907 *Probable error in annotated protein start position corrected.

TABLE 15-B Sequences of validated defense systems (Cloned sequences corresponding to row No. 1-68 in Table 15-A) Row No. Cloned Sequence  1 Control acagcaccacgttcatcttccttttttaactgattttacagagactttaatacagttaaaatttta  2 tttcctgagctgtaatcgattaagttgatgcatttaatgggaatgatatagggtcatttccagtct  3 cacttatagaaatggctaaagcatgactctcgccaaaaccgtttatgtgttgtacataacgcgatc  4 atccctctcacaaattgccttttctcatggcatctcgcccggtcccccattacaatcactttttgt  5 tttttgcgagctgcattccagtcttcagagggtttttcgatgattaaaaatgacaaggcatggata  6 ggagacttgctgggcggaccgctcatgagcagggaaagccgcgtcattgccgaactgttgctaacc gatcccgatgaacagacatggcaagagcaaattgttggccacaacattttacaagcctcttctcct aacaccgcaaaacgttacgcggcaacaatcaggcttcgcctgaacacgctggataaaagcgcgtgg acattgattgccgaaggtagtgaacgggaacgccaacaacttctgtttgtggctctgatgctacat tcgccggtagttaaggattttctggctgaagtggtgaacgatctgcgcaggcagttcaaggaaaag ttgcctggcaatagctggaacgaatttgtgaatagccaggttcgcctacatccggtactcgccagc tactcagattcatctattgcaaaaatgggaaacaatctggtgaaggcgcttgctgaagcgggttat gtggatacgccccgcagacgtaacctgcaggcagtttaccttttaccggaaactcaggcagtgtta cagcgcctgggacaacaggacttgatatctattctggagggaaaacggtgatagatcccgttcttg aatatcgcctgtctcaaatccagagtcgcattaacgaagatcgcttcctcaaaaataacggctccg gaaatgaaattggtttttggatctttgattatcccgcgcagtgcgaactgcaggtacgggagcatt tgaaatatctgctccggcatctggaaaaggaccataaatttgcctgtctgaatgtcttccaaatca tcatcgatatgctcaatgaacgcggccttttcgagcgcgtctgccagcaggaagtcaaagtgggta ctgagacgctgaaaaagcagcttgctggtccgttaaatcagaaaaagatcgctgattttatagcga aaaaagtcgatctggctgcccaggattttgtcattcttaccggcatgggcaacgcctggccattag tacgcggtcatgaactgatgagtgccttgcaggatgtcatggggttcaccccactgctgatgtttt atcctggcacctacagcgggtacaacctttccccgctcacagacaccggttcacaaaattattatc gcgctttcagactggtaccagatacgggacccgcagcaacattgaatcctcaatgaagagcataac aatgaatattgaacagatttttgaaaaacctctaaaacgaaatataaacggggtagtcaaagcaga gcaaaccgatgatgccagcgcgtacatcgagttagatgaatatgtcatcacccgcgaactggaaaa ccatcttcgccatttcttcgaatcctatgttcctgccactggcccggaacggatccgtatggaaaa caagatcggcgtatgggtttcaggcttcttcggttcaggtaaatcgcactttattaagattctttc ttatcttttatctaaccgcaaagttacacataacggtacggaacgtaatgcttactccttctttga agataaaatcaaagatgcattattccttgccgatattaacaaagcggtgcattacccgactgaagt cattctgttcaatattgattcgcgtgccaacgtagatgacaaagaagatgccattcttaaagtctt cctgaaagttttcaacgaacgcattggatactgcgctgattttccgcatattgcccatcttgagcg cgagctggataaacgcggtcagtatgaaacctttaaagccgcgtttgccgatatcaatggctcgcg ctgggaagacgagcgcgacgcttactacttcatcagcgatgacatggcacaagcattaagccaggc cacgcagcagagtcttgaatcctcccgccaatgggtggaacaactcgacaaaaacttcccgctgga tatcaataatttttgccagtgggtaaaagagtggctggatgacaatggtaagaacatcctctttat ggtggatgaagtcggtcagttcattggcaaaaatacgcaaatgatgctgaagctgcagactattac tgaaaaccttggggtaatttgcggtggccgcgcatgggttatcgtgacttcgcaggccgatatcaa cgcggcaatcggtggtatgagcagtcgcgacggacaggacttctccaagatccaggggcgcttctc tacacgcctgcaactttccagctctaacacatcagaagttatccagaaacgtttgttggtaaagac tgacgaagcaaaagcggcactggcaaaagtgtggcaagagaaagccgatatcctgcgtaaccagct ggcttttgacactacaacaactactgcactacgtccttttaccagcgaagaagagttcgttgacaa ctacccgtttgtcccgtggcactatcagattctgcaaaaagtgtttgaatctattcggacgaaagg tgcagcgggtaaacaattggccatgggtgagcgttctcagctggaggcattccagacggcggcgca gcaaatctcagcgcaagggctggattctctggtgcctttctggcgcttctatgccgccattgagag cttcctggaacctgccgttagccgcaccatcactcaggcttgccagaatggcattcttgatgagtt cgatggcaacctgcttaaaacgctgttcctgatccgctatgtggaaacgctgaaaagcaccctgga taacctggtcacattgtctatcgataggatcgatgccgataaagttgagttgcgccgccgggtcga aaaaagtctcaacacgcttgaacgcctgatgctcattgcgcgcgttgaagataaatatgtgttcct gaccaacgaagagaaagagatcgaaaacgagatccgtaacgttgatgtcgatttctctgcgatcaa caaaaaactggcatcgatcatctttgatgacattctgaaaagccgtaaatatcgttatccggctaa caagcaagactttgatatcagccgcttcctgaacgggcatccattagacggcgcagtgcttaacga tctggtggtgaagatcctgacccctaaagatccgacttattcgttctataacagcgatgcgacctg tcgcccttatacgtcagaaggcgacggctgtattttgattcgtctgcccgaagagggccgtacctg gagcgatattgatttagtcgtccagactgaaaagttcctcaaagataacgccgggcaacgtccgga acaggcaaccctgctctcagaaaaagcgcgtgaaaacagcaaccgggaaaaattactccgtgttca gttggaatcactacttgcagaagcagacgtctgggcgattggcgaacgcttaccgaaaaaatcctc cacgccatcgaacattgtcgatgaagcctgccgttacgtgattgaaaacaccttcggcaagctgaa gatgctgcggccttttaacggtgacatctcccgtgaaattcatgcattactgacggttgagaacga caccgaactggatctcggtaacctcgaagagtccaaccccgacgccatgcgcgaggtagaaacctg gatcagcatgaatatcgaatacaataaacctgtgtatttacgcgatattctgaaccattttgcgcg tcgcccttatggctggcccgaagacgaagtgaaactgctagtagcccgtctggcctgcaaaggtaa attcagcttcagccagcaaaacaacaacgtcgagcgaaaacaggcgtgggagttatttaataacag ccgccgccatagcgaattgcgtctgcataaagttcgccgtcatgatgaagcgcaggtgcgtaaagc cgcgcaaaccatggctgacatcgctcagcagccgtttaacgaacgggaagagccggcgctggttga acatattcgtcaggtatttgaagagtggaagcaagagctgaacgtattccgcgccaaggcagaggg cggaaacaatccggggaaaaacgagattgaatccggtctgcgcctgcttaatgccattcttaatga gaaagaagattttgccctgatcgaaaaagtctcatcgctgaaagatgaacttctggatttcagcga agaccgtgaagatttggtcgacttctaccgtaagcaattcgccacctggcaaaaactgggtgctgc gctgaatggcagctttaaatctaaccgcagcgcgctggaaaaagacgccgcagcggttaaagcgct gggcgagctggaaagcatctggcaaatgccggaaccttataagcatctcaatcgcatcacgccgtt gattgaacaggtccagaacgtcaaccatcagttagtcgaacagcatcgccagcacgccctcgaacg cattgacgcccgcattgaggaaagccgtcaacgcttgctggaagcgcacgccacgtcggagctgca aaacagcgttctgctgccgatgcaaaaagccagaaaacgcgctgaagtcagccagtcgattccgga aattttggcggaacagcaagagacaaaagcgctgcaaatggatgcagataaaaagattaacctgtg gatcgacgagctgcgtaaaaagcaagaagcacaactccgggcagcaaatgaagctaaacgcgctgc cgactcagaacagacttatgttgtggtggaaaaaaccgttatccaaccggtaccgaaaaaaacgca tctggtgaatgtcgccagtgagatgcgtaatgccaccggtggtgaagttctggaaacgaccgaaca ggtggaaaaggcgctcgacacgttacgcacaacgctgctggccgtcattaaagcaggcgatcgcat tcgccttcagtaactcccatttcagggcagcactctgctgccctttgcaggattttctatgaatac caataacattaaaaaatatgccccacaggcccgtaacgacttccgcgatgcggtgatccagaagct aacgacgcttgggatcgctgcagataaaaaaggcaatttgcagattgccgaggccgaaaccattgg cgagaccgtgcgttacggtcagtttgattacccgttatcgacccttccccgccgcgaacggctggt aaaacgcgcccgtgagcagggttttgaggtgctggttgagcactgcgcctacacctggtttaaccg cttatgtgcaattcgctatatggagctacacggttatcttgagcacggcttccgtatgttgtccca cccggagacgccgaccgcgtttgaggtgctggatcatgtgccggaagtggcagaagccctgctgcc ggaaaataaggcgcagctggttgaaatgaagcMccggtaatcaggacgaagccctgtaccgcgaac tgctgctggggcagtgccacgccctgcaccacgcgatgccgttcctgtttgaagcggtagatgacg aagcggaactgctgttgccggataacctgacccgtaccgactctattctgcgtgggctggttgatg atattccggaagaagactgggagcaggtagaggttatcggctggctgtatcagttctatatttcgg aaaagaaagatgccgtgattggcaaagtggtgaagagcgaagatattcctgccgccacccagctgt ttacgccaaactggattgtgcagtatctggtacaaaactccgttggccgccagtggttgcagacct acccggactcgccgctgaaagacaaaatggagtactacatcgagcctgcggaacaaacgccggaag tgcaggcgcagctggcggcgattaccccagccagcattgaacccgaaagtattaaagtgctcgacc cagcctgcggctccggtcatattttgattgaagcctataatgtgctgaaaaatatctacgaagagc gtggttatcgcgggcgtgatattccacaactgattctggaaaataatatttttggtcttgatatcg acgaccgcgcggcacagctttccggctttgcattattaatgatggcgcgtcaggatgaccgcagaa tatttacccgcgatgtacgtctgaatattgtctctttgcaggaaagcctgcatctggatatcgcca aactctggcagcaactgaatttccaccagcaggtacaaaccggcagtatgggggatatgtttgctg aaaataacgcgttaacccaaactgacagcgcagaatatcagctgctgatgcgcacgctgaaacgct ttgtgaatgcaaaaacgctgggctcactgattcaggtgccgcaggaagaagaagcggaactgaagg tattcctggacgcgttgtatcgcctggaacaggaaggcgatttccagcagaagacggcggcaaaag cgtttattccgtttattcagcaggcgtggattttagcgcagcgatatgatgcggtagtggcgaatc cgccgtatatggggggtaattatatggagacagaacttaagaatttcgtctcttcttactaccctc aaggaaaggcggatctttattcttcatttatggtcagattacttttacaattaaaagataatcgca ctttaagcctaatgaccccctttacttggatgaatttatcatcatttgaagagctccgaaaaatta tacttacaaatttcagcattcagtcattagtacagcctgaatatcattcattttttgagtcagctt atgtcccaatttgtgcttttagcatttcaaataccccattaagctggaatgcaaaattttttgatt tatcagatttttatggagaaaaaaatcaagctccaaattttcagtatgcaattaaaaatgacaata aatgtcattggaaatataacagaatcaccacggactttctatgtactcccggatatatcattgctt actctctgcctgattctgcgttatcttgcttcaaaacatccaaaaaacttcatgatgtttgcaatc taaaacaaggattaattactggtgataatgaaagatacctaagattctggcatgaaatcagctata actctttcagtctcaatgaaaaaagaaaaaaaacaaaatggttcccatatcaaaaaggtggtgcat accgtaaatggtatggtaataatgattatgttgttgactgggagaatgatggttattccattaaaa acttttataatgacaaaggtaaattacgctcacgccctcaaaacatacaattttattgtaaagagg gtttaacatggacaagtttaactatttcgtcactatcgatgagatatgtaccaaatggatatattt ttgatgcaaaaggacctatgtgttttccgaaatcctctttggatatctggaatattcttggctatg cgaatagcaaagtaatagatatatttctcaaacaattagcgcccaccatggattattctcaagggc ctgttggaaatgtcccattcaaatttaacgatggtgatttgaacgagataataaaagaactcgtaa acattcacaaacgtgactgggatgaaaatgaaacatcttttgagtttaagagagatatgttggttc atttttcaagagatattaacactattaagggtagttttacactaaggcaaggggaaaataaaaaag cgattaacagaacaaaatttttagaagaaatgaataactctttctttataaattgctttaatctaa ctgatattttatctccagaaattgaactaaacaaaatcacgttaacgcatgcaactattgaaattg atattcaaaaaataatttcatatgcaataggctgccaaatgggacgttactcccttgatcgcgaag gtctggtatacgctcatgaaggcaataatggcttcgccgatcttgtcgccgaaggtgcttataaaa gcttcccggctgatagtgacggcattctgccgctaatggatgaagagtggtttgacgatgacgtca cctctcgcgtcaaggagtttatccgcaccgtttggggcgaagaatatttgcgcgaaaacctcgatt ttatagccgaagttctcaagcccaaaaaaggcgaatctgcgctggagaccattcgtcgctatcttt ccacccagttctggaaagatcatctgaaaatgtataaaaagcgtccaatctactggctattcagct ccggtaaagagaaagcgtttgagtgcttggtgtatctgcatcgctataacgatgccacgctgtcga gaatgcgtaccgaatatgtggtgccgctgctggcgcgttatcaggccaatattgatcgcctgaacg atcaacttgatgaggcttctggcggtgaatccacacgtctgaaacgcgaacgcgacagcctgatca aaaaattcagcgaactgcgcagctatgacgatcgcctgcgtcactatgctgatatgagaatcagta ttgatctcgacgatggcgttaaggttaactacggcaagtttggcgatctgctggcagatgtcaaag ccatcaccggcaatgccccagaggtgatctaaaccagacggcacgttctcctgttgccgggttctg cccggtggcaaataccaccgggaaacgcgccgctgctgacatttctccacctcacttcatgataaa atgcgccaccgtgtcaaaatctccttttcgcgttttggcgctttcttattcatcgtaacaacatgg gattgtgaacttgcaaaatcaggactttattgctggccttaaagctaaatttgccgaacatcgcat cgttttctggcacgatcccgataaacgttttattgaggaactggaacagctcaagcttgaaagcgt cacgctaatcaacatgacccacgagtcacagctggcggtaaaaaaacgcatcgagattgatgagcc agaacagcagttcctgctgtggttcccccatgatgcgccgcctcatgaacaagactggctgctgga tatccgcctttacagcagcgaattccatgccgattttgccgccatcaccctgaacacgctgggcat tccccagcttggcctgcgcgagcatattcagcgacgcaaggccttcttcagcactaaacgcacgca ggcgctgaaaaatctggcgacagaacaggaagatgaagcctcgctggataagaaaatgattgcggt gatcgctggcgcaaagaccgcgaaaaccgaagacattttgttcaacctgattacccagtacgttaa ccaacaaatagaagacgacagcgaactggaaaacacgcaggcgatgctgaaacgccacggtctgga ctcggtattgtgggaaatgctcaaccacgaaatgggctaccaggcagaggagccatcgctggaaaa cctgctcctgaaactgttttgtaccgatctctctgcccaggccgacccacagcagcgcgcctggct ggaaaaaaatgtcctgctgacgccatccggcagagcatctgccctggcatttatggtgacctggcg tgccgatcgtcgctataaagaggcttatgactactgcgctcagcaaatgcaggccgccctgcaccc ggaagatcattaccgactcagctcgccgtatgatttgcacgaatgcgaaaccaccctcagcatcga acaaaccattattcatgcgctggtaacacagctgctggaagagagcaccacgctcgatcgggaagc ctttaaaaaactgctctctgagcgccagagcaaatactggtgtcagacacaaccagagtattacgc catctatgacgcattgcgccaggctgagcggttgctgaacctgcgcaatcgccacatcgatggttt ccactaccaggacagcgccaccttctggaaagcctactgcgaagaactgttccgcttcgaccaggc ttatcgcctgtttaatgaatatgccttgctggttcacagcaaaggagcgatgatcctcaagagcct ggatgattatatcgaggcgctctacagcaactggtatctggcagagttaagccgtaactggaacga agtgctggaagcggaaaatcgtatgcaggcgtggcaaatccctggcgtgccgcgtcagcagaactt cttcaatgaggtggtgaagccacagttccaaaatccgcaaatcaaacgcgtgttcgtgataatttc cgatgccctgcgttatgaagtggcggaggagctggggaatcaaatcaataccgagaaacgctttac cgcagaactgcgctcgcagctcggcgtgctccccagctacacccaactgggaatggcggcattgct gccccatgaacaactttgctatcaacccggtaacggcgacatcgtttatgctgatgggctgtcgac ctcgggtattcctaaccgcgataccattctgaagaactataagggaatggcgataaaatcgaagga ccttctggagttaaaaaatcaggaagggcgagaccttattcgcgattacgaagtggtgtatatctg gcataacacgattgatgccactggcgacacggcatccacggaagataaaaccttcgaagcgtgccg cacggcggtggctgaactgaaagatttagtcaccaaggtgatcaaccgcctccacggcacacgcat ttttgttacggcggatcacggtttcctgttccagcaacaggcgctttcggttcaggataaaaccac tctgcaaattaagccggaaaacaccatcaagaaccacaaacgctttattatcggccatcagcttcc cgccgatgatttttgctggaaagggaaagtggcggataccgcaggcgtgagcgacaacagcgagtt cctgattccgaaagggatccagcgcttccatttctctggcggcgcgcgcttcgttcatggcggcac catgttgcaggaggtttgcgttccggtattgcagataaaagccctgcaaaaaaccgccgcagaaaa acagccacagcgccgcccggtggatattgtcgcttaccatccgatgattaagctagtgaacaatat cgataaagtgagcctgttgcagacgcatccggtgggcgaactttatgaaccgcgtatcctgaacat ttacattgtcgacaacgccaacaatgtggtctcgggcaaagagcgcatcagctttgacagtgataa caacaccatggaaaaacgcgtacgcgaagttacgctgaagctgattggcgctaacttcaaccgtcg caatgagtactggttgatactggaagacgcacaaacggaaacggggtatcagaagtacccggtcat tatcgatctggcgttccaggatgatttcttctaagtgaggcgatatgcaaacccatcatgatttac ctgtttcaggcgtatccgcaggggaaattgcctccgagggttacgatctggacgccctgctgaacc agcattttgctggtcgcgtggtgcgtaaagatctcaccaagcaactcaaggaaggggcaaacgtcc cggtgtatgtgcttgagtatctgctcggcatgtactgcgcctctgacgatgacgatgtggtcgagc aagggttgcaaaacgttaagcgtattctggctgataactatgtgcgcccggatgaagcggagaaag tgaagtcgctgatccgcgagcgtggttcgtacaaaatcatcgataaagtgtcggtgaaactgaacc agaaaaaagacgtttacgaagcccagctttctaacctcggcatcaaagacgcgctggtgccctcgc agatggttaaagacaacgagaagctactgacgggcggtatctggtgcatgattaccgtcaactatt tctttgaagaagggcagaagacctcacccttctcattgatgacgctcaagcctatccagatgccga atatggatatggaagaggtgttcgatgcgcgtaaacactttaaccgtgaccagtggatcgatgtgc tgctgcgctcggtgggtatggagcccgccaatattgagcaacgcaccaaatggcaccttatcaccc gtatgatcccgttcgtggagaacaactataacgtttgcgagctggggccgcgtggcaccggtaaaa gccatgtgtataaagagtgttctcctaactccctgttagtttccggcgggcaaacgaccgttgcca acttgttctacaacatggccagtcgccagatcggcctggttggcatgtgggatgtggtagcgttcg acgaagtcgcggggatcactttcaaagataaagacggcgtgcaaatcatgaaagattacatggcgt caggatctttttctcgcggcagagattcgattgaaggtaaagcgtcgatggttttcgtcggcaaca tcaatcaaagcgtagagactctcgttaaaaccagccatttgctggcaccatttccgactgcgatga ttgatacagcatttttcgaccgctttcatgcctatattcccggttgggaaatccccaaaatgcgcc cggaattctttaccaaccgttacgggctgattacggattatctcgctgaatatatgcgcgaaatgc gcaaacgcagtttctctgatgcgattgataaattctttaagctgggtaacaacctcaaccagcgtg acgttattgccgttcgacgtaccgtgtcggggttgttaaaactcatgcatcccgatggcgcgtaca gcaaagaagatgtgcgagtctgcctgacctatgcgatggaagttcgccgccgcgtgaaagagcaac ttaaaaaactgggcggtctggagttcttcgatgtgaactttagctacatcgacaacgaaacgctgg aagagttttttgtgagcgtaccggaacagggcggcagcgaacttattcctgccggaatgccaaagc cgggtgttgtgcatctggtcactcaggcagaaagcggcatgaccgggctgtatcgttttgaaacac agatgactgccggtaatggtaagcatagtgtatcgggtctgggttcaaatacctccgcgaaagaag ctatccgcgtcggtttcgattacttcaaaggcaatttgaatcgggtaagcgcggccgcgaaattct ccgatcatgaatatcaccttcatgtcgttgaactgcataatactggcccaagcaccgcaaccagtc ttgctgcgcttatcgctttatgttcgatattgctggcaaaaccggtgcaggaacagatggtggtgt tgggcagtatgacgcttggtggggtaattaacccggtgcaggatcttgccgccagtttgcagctcg ccttcgacagcggtgcaaaacgggttctgttgccgatgtcctcggctatggatattccaacggttc cggcagagttatttaccaagtttcaggtgagtttttactcagacccggttgatgctgtttataagg cgctgggtgtgaattaacgtagtaactattttaatgaac(SEQ ID NO: 269)  7 Control ggtgaacgtttggttgatagggtagtaaaactagtaatcatcctataattagctatattcgtggtt  8 attagattgaaaacagataacattaacaaaatctataaatcgatttgaatgatttttttcatcaat  9 actgttgtaagctcctgctatcaaaagttttgcacacaatctataagctcccagaattgcttgtat 10 aaatgctatcattggcgctgtcccgatcgagggagcaaggaggggactctcttgtgccatgcgatt 11 aatcactggggctctaagtgaaatttagtgggactaaatactaattggaacgtgagataaaaatgc acaaatatccctctataatagttaatatcaaccttcgagaagccaaactgaaaaagaaggtacgtg agcatttacaatccttgggttttacaagatctgattctggagcgctccaggccccgggaaatacca aagatgtaatacgggctcttcatagttctcaacgagctgagcggatatttgcaaaccaaaagttca taacgctaagagcggcaaagcttattaaatttttcgcatccggcaatgaggtcattccggataaga tttcaccggtacttgaacgtgtaaagtcaggaacctggcaaggagatctctttaggttagcagcat taacttggtccgtacctgtttcaagcggatttggaaggcgtctccggtatcttgtatgggatgaaa gcaacggaaaattgatagggctgatcgcaattggtgaccctgtgttcaaccttgcagtccgagata atttgattgggtgggatactcatgccagaagttcccggcttgttaatttgatggatgcatacgtcc tcggtgctcttcccccttataatgccctgctgggaggaaaattaattgcatgtctgcttcgtagcc gcgatctttatgatgactttgcaaaggtctatggtgataccgttggagtaatatctcaaaaaaaga aacaagcacgtcttttggctattacaacaacatcgtctatggggcgctcatcggtatataaccgtt taaagctggatggaattcaatatttaaaatcgattggatatacaggcggttgggggcattttcata tacctgatagcttgttcattgaattacgtgattacttacgtgatatggatcacgcttatgcagatc attatatgtttggtaatgggcctaactggcgtttacgtacaactaaggcagctttaaatgcactag gatttagagataatttgatgaagcatggaattcaacgtgaagtgtttatcagtcagctagcagaaa atgcaactagtattctgcaaacaggcaaaggtgaaccagatctaacctctttgctttctgctaaag agatagctgagtgtgcgatggcacgatggatggttccacgatcaattcgcaatccagaatatcggc tttggaaagcaagagatctatttgattttattagtaatgactcgctaaactttcccccgtttgacg agatagcgaaaacagttgtctaatcttaactgaagggggagtaagtgaattacgctattgataagt tcaccgggacactgatattagcagctcgagcaacgaaatatgctcaatatgtttgcccagtttgta aaaaaggtgttaacctccgtaaagggaaggttatacccccatattttgctcatttgcccggacatg gtacgtcagactgtgaaaattttgttcccggaaattctatcattgtcgaaactattaaaactattt caaagcgatatatggatttgcgcttattgattcctgtcggaagtaatagtcgagagtggtcattag aattagtgttgccaacctgtaatttatgtagagcaaagataacgttagatgtaggaggcagaagcc aaacgcttgatatgaggagtatggtaaagagtcgccagattggtgctgaattatcagtaaaatctt accgtattgtttcatatagtggtgaaccagatccaaaatttgtaacagaagttgaaagagaatgcc caggtttaccttctgagggagcagcagttttcactgctttagggcgtggggcatcgaagggatttc cacgagcacaagagttaagatgtactgaaacatttgcctttctttggcgacaccctgttgctccag attttcctgatgaattagaaataaaaagtttagctagtaaacagggatggaatttagctcttgtta caattcctgaagtcccttctgtggagagtatttcatggctaaaatcttttacataccttcctgttg ttcctgccagaacatctattacagcaatttggccgttcctaaatcaaaaaacaagtattaatcatg tcgaatgtgtttattctgacacaatattgttgtcaacaaatatggcaccaacatcatcagaaaatg ttggaccaactatgtacgcacaaggttcctctttattactttcagcggttggtgttgaaacatcac ctgctttcttcattctaaatcctggagaaaatgactttgtgggcgtttctggctcaattgagcagg acgtaaacttatttttttctttctataaaaaaaacgtttctgtacccagaaaatatccctcaatag atttggtttttactaagaggaataaagaaaagaccatcgtttccttacatcaaagaagatgcattg aagttatgatggaagcacgaatgtttggccataaattagaatacatgtctatgccttctggtgttg aaggagtggcaagaattcaaagacaaactgaaagtaatgttattaagttagtttctaatgatgaca ttgcagctcatgataagagcatgcggttactatctcctgttgcgttatctcaattatctgattgct tagcaaacttaacatgtcatgtagaaatagattttttaggtcttggtaaaatatttttacctggtt cttctatgctatcattagatgacgggaaatttattgaattatctcctaatcttcgctcacggatat taagttttatacttcaaatggggcacaccctccatggttttagtttaaataatgattttttattag ttgagaaattagtggatttgcagccggaaccacacttattaccgcattatagagcattggtaaaag aagttaagaccaatggatttgaatgtaaccgctttagataaggtgccttcgaatgagttaccaata tagccaagaggcaaaggaacggatctctaagttgggacaatccgaaattgttaactttatcaatga gatttctccaactttacgacgtaaagcttttggttgtttaccaaaagtaccgggattcagggcagg acatcccactgaaattaaagaaaaacagaaaagattgattgggtatatgttccagtcacatccttc ctctgaggagagaaaagcatggaaaagtttttctcttttttggcagttttgggctgaagagaaaat tgacaaatcatttagtatgattgataatttaggattaaaagaaaactctggctctatttttattag agagcttgctaaaaactttcctaaagttgctagagagaatatcgagcgcctgtttatctttagtgg gtttgctgatgatccagacgttataaatgcatttaacctttttcctcctgcagttgttcttgcccg cgatatcgtgattgatactcttccaattcgtttagatgagcttgaagcacgtattagtttaattgc cgataatgttgagaaaaaaaataatcatattaaagaacttgagttaaaaatagatgctttttccga acagtttgataattactttaataatgaaaagagcagtttaaaaataattaatgaactacaatcttt gataaactcagagactaaacaatctgatattgctaataaagctattgacgagctttatcattttaa tgaaaaaaacaaacagctaatattatctcttcaagaaaaattagattttaatgctctggctatgaa tgatatttctgagcatgaaaaattgataaaaagtatggctaatgacatttcagaatttaaaaatgc attaacgatcttgtgtgataataaaataaagaataacgagttagattatgtcaatgaattaaaaaa actcactgaacgaatagatacacttgaaataaacacatctcaagctagcgaagtgagtgtcaccaa tagatttacaaaattccatgaaatagcgcactatgaaaattatgagtatattcatcctccgaagac atatctaatagaatttctttaaatttacaggctgttggattgacaaaaaattcagcagaaaaattg gctagattgacattagctaccttcgtttctggacaaatcattcaattcagtggctctttggcagat attatcgcggatgcaattgccattgctattggtgcaccacgttatcacatatggagagttccagtt ggtattatttctgacatggatgcttttgattttatagagactatagctgaatcatctcgctgtctc cttttgaaaggggccaatctttcagcatttgagatttatggagcggcaattagagatatagttgtt caacggcaaatacatccaacaaattatgaccatctggcattgatagctacctggaaacaaggccca gctacattccctgatggaggaatgttggccgagttgggacctgttattgatactgatacattaaaa atgcgtggtttatcagctactttaccccaattgaaaccaggttgtcttgccaaggataaatggaca aatattgatggactacatcttgatagtgttgatgattatgtagatgaattaagagcattactggac gaagctggatttgatgggggaactttgtggaagagaatgattcatattttctatacttcactcata aggatccctaatggaaattatatttatgatctttattctgtcttgtctttttatactcttacatgg gcaaaaattaaaggtggccccgtccaaaagatagaagatattgccaatcgtgaattaaaaaattat agtgcaaaaatatcttcttgaggaggtggttaatggagtggagagcagtatcacgagacaaagcac tggatatgttatcaactgcattaaattgtcgatttgatgatgaagggttgagaatttcagcagttt cagaatgcttaaggagcgtattatatcaatattctatatctgaaacagaagaagctaggcaaactg taacctcgcttcgactcactagtgcagtaaggcgaaaattggtacctttatggccagacattgctg atattgataatgctatacatccgggcattatgtctatattgaacagcttggctgaattgggtgaca tgattaagttagaaggtggtaattggctaacagctcccccacatgcagtacgaattgacaataaga tggctgttttttttggtggagagccttcctgtacattttcaacgggcgtggtagctaaatctgctg gaagagttcgcttggttgaagaaaaagtgtgtactggaagtgttgaaatctgggatgcaaatgagt ggattggtgccccagcagaaggcaatgaagaatggtcatccagactactatctggaactatttccg gctttatcgatgcacctggcaatatgagtgaaacgactgcatatgtgcggggaaaatggctccatt tgtcagaactttcttttaataaaaagcaaatctacttatgcagaatgtccgttgataatcactttt cctattatttaggagaaattgaagctggacgcttatgtagaatgaattcgttagaatcgtctgatg atgtcagaagattacgtttttttctcgatacaaaagataattgtccgctaaaggtccgtatcaaaa tatctaatgggctagcaagattaagattaaccagaagattaccaagacgagaaacgaaggtactcc tgctaggctggagagaatcaggttttgaaaatgaacattcaggaataacacaccatgtattccccg aggaaatattacccatagtgcgtagcgcttttgaagggcttggtattatttggattaacgaattca cgcgacggaatgaaatatgattaataaaaataaagtaactgaacgttcaggtatacatgataccgt gaaaagccttagtgaaaatctgagaaaatacattgaggcacaatatcatatccgggatgaagggtt aattgctgagcgacgagcgcttttacagcaaaatgaaactattgctcaagctccttatatagaagc aaccccaatttatgaacctggtgcgccatacagtgaattgcctattcccgaagcagcaagtaatgt gctaactcaactatcagaacttggaattggcctctatcaacgcccctataaacaccaatcacaggc acttgagtcatttcttggcgaaaacgcttctgatctggtcattgcaacaggtacaggctccggtaa gactgaaagctttctaatgccaattattggaaaattggcgattgaatcttccgagagacctaaatc tgcatcccttccaggttgtagagcaattttattatatccaatgaatgcattagttaacgatcaact tgctcgtatcagacgtctttttggtgattctgaagcctctaaaatactgagatctggaagatgtgc ccctgtacgctttggcgcttatacgggaagaacgccttaccctggtcgtcgtagctctagacgaga cgagctttttatcaaaccccttttcgatgagttttacaataaactcgcaaataacgcccccgtacg tgcggaactgaaccgcattggtcgctggccaagtaaagatcttgatgctttttatgggcaaagcgc atctcaggctaaaacctacgtctcaggcaaaaaaacgggtaagcaatttgttttgaacaattgggg ggagaggctaattacccagcctgaggatcgtgagctaatgacccggcatgaaatacagaatcgctg tccagaattactgataacgaactactccatgcttgagtatatgctgatgcgacctatcgagcgtaa tatttttgagcagactaaggaatggctcaaagctgatgagatgaatgagcttatcttagtgcttga tgaagcgcatatgtatagaggagcagggggagcagaggtagcccttttaatacgtcgcctctgtgc tcggttggatattccccgggaacgtatgcgctgcatccttaccagtgctagtctagggtccattga ggatggagaacgttttgcccaagacttaactggcttatcaccaacctcttcgaggaaatttcgaat tattgagggtacaagggaatcgcgtcctgagtcacaaattgttaccagtaaagaagctaatgcact ggctgaattcgacctaaattcatttcagtgcgtagctgaggatcttgaatctgcatatgcagcaat agagtctcttgccgaacgaatgggctggcaaaagccgatgataaaagatcatagtacactacgtaa ttggttatttgataatttgactggttttggtcctattgaaacgcttattgaaatagtttcaggtaa agcggttaagctaaatatcttgagtgaaaacctttttccagactctccacagcaaatcgcagagcg agcaacagatgcattactcgcattgggttgctatgctcagagggcatccgatggcagagtgcttat tccaactcgcatgcatcttttttatcggggattaccaggtctttatgcctgtatagatcccgattg taatcaacgtttgggtaaccatagcgggccaactatacttggccgcctttatacgaaaccactgga tcaatgtaaatgcgcttcaaaagggcgagtctacgaattatttacccaccgtgactgcggtgcggc ttttattcgtggatacgttagttccgaaatggactttgtatggcaccagccgaacggaccattatc agaagatgaggatatcgatcttgttcccatagatatattggtcgaggaaacacctcatgtacatag tgattaccaggacagatggctacatatagcaacaggacgcctttctaaacagtgtcaagatgagga ttctggttatcgtaaagtctttatacctgaccgagttaagtctggatcagaaattacatttgatga atgccctgtttgtatgcgtaagacaagaagtgctcagaatgaaccgtctaaaattatggatcatgt tacaaaaggggaagcaccttttacaacgttagtacgtacacagatatctcaccagccagcgagtcg tcctattgatggtaaacatcccaatgggggaaaaaaagtacttattttttctgatggccgacaaaa agcagctcggcttgcacgtgatattcctagagatattgagcttgatttgtttcggcaatccattgc tctcgcctgttctaaactgaaagatatcaatcgggaacccaaaccaacatcagtactttaccttgc tttcctatcagtcctttctgaacatgacttgcttatttttgatggggaagattcacgaaaagttgt aatggcccgtgatgaattttatcgtgattataatagcgatctggctcaagcttttgatgatagctt cagcccccaagagtcaccgtcacgatataaaatagcgttgcttaaacttttatgtagcaattacta ttctctttccggaacaacagttggttttgttgaaccatcgcagcttaaatcaaaaaaaatgtggga agatgtgcagtccaagaagctcaatattgagagcaaggatgttcatgctttagctgttgcttggat tgataccttactcactgaatttgcttttgatgaatctattgattcgacactacgaatcaaagcagc tggattctacaaacccacttggggtagtcaaggacggtttggaaaagctcttaggaaaaccctgat acagtatcctgctatgggggagctttatgtggaagttttggaggagatttttcgtactcatctgac attaggaaaagatggtgtctactttcttgctccaaatgcactacgtctgaaaatagatctcttgca tgtctggaaacaatgtaatgactgcacggcactaatgccatttgctttagaacattctacttgcct tgcttgtggtagtaacagtgtcaaaacagtcgagccgtcggaaagcagctatattaatgcacgaaa aggattctggcgttcgccggtagaagaagttttggtttcaaattcgcggcttctaaaccttagcgt tgaagagcatactgctcaactctcacatagagatagggccagcgttcatgccactacagaactcta cgaactgagattccaagatgttcttattaatgataacgacaagcccattgatgtacttagttgtac gacgacgatggaagtgggggttgatattggatctctggttgctgttgctttaagaaacgtccctcc gcaacgagaaaattatcagcaacgtgctgggcgagcaggccgccgtggcgcatctgtttcaacggt ggttacatattctcaaaatggccctcatgatagttattatttccttaatcctgaacgcattgttgc aggttctcctcgtacacctgaagtgaaagtaaataatcccaaaatagccagaagacacgttcattc ttttttagttcagaccttttttcacgagttaatggaacaaggaatttataatcccgcagagaaaac tgccatacttgagaaagcacttggtactacacgagatttttttcatggagcaaaagatactggcct aaatctcgatagctttaataattgggttaaaaaccgtattctatctactaatggtgatttgagaac aagtgttgcagcatggcttcctcctgttcttgaaactggagggctttctgccagtgactggtttgc taaggtagcagaggaatttttaaatacactccatgggctggctgaaattgttccacaaactgccgt tcttgttgatgaggaaaatgaagatgatgagcagacttctggtggaatgaaatttgcacaagaaga attacttgagttcctgttttaccatggtttattaccaagttatgcatttcctacaagcctctgtag tttcttggtagaaaaaattgtaaagaatattagaggttcttttgaggtgcgaacagtacaacagcc tcagcaatcaatttctcaggctctgagtgaatatgccccgggacgtttgattgttattgataggaa aacctatcgctctggtggtgttttttctaatgcattgaaaggcgaactaaaccgggcaagaaagct tttcaataatcccaaaaagtttattcattgcgataagtgctcttttgtccgcgatcctcataataa tcagaatagcgaaaatacttgtccgatctgtggtggcattctaaaagtagaaataatgattcagcc cgaagtctttggacctgaaaatgccaaggaacttaatgaggacgacagagagcaagaaatcaccta tgtaacagcggcacaatatccacaacctgttgatcctgaagattttaagttcaataatggaggtgc tcatattgtttttactcacgcaatagatcagaaactggtgacggtgaaccgagggaaaaatgaggg ggagtccagtggtttttcagtatgttgcgaatgtggtgcggcctccgtttatgattcctactcacc ggcaaagggggcacatgaaagaccgtataaatatatagcaactaaggaaacgcctcgcttatgctc tggcgagtataaacgcgtttttctcggacatgatttccgtactgatttgcttttattacgaataac cgttgggtctccgcttgtaactgatacttcaaatgctatcgttttacggatgtatgaagatgcatt atatacaatagcggaagcactaaggcttgcagctagtcgccataaacaactggatcttgatcctgc tgagtttggctctggtttcagaattttacccactatagaggaagatactcaggcattggatctctt cctttatgatactttatccggcggtgcgggttatgcggaagtagcagcagcgaatctagatgacat tcttactgcaacactcgcattgttagaaagctgtgagtgcgatacctcctgtacagattgtctcaa tcatttccacaaccagcatatacaaagccgtctcgataggaaactaggtgcatctttacttcgtta tgcactatacggaatggttcctcgttgtgcttcacctgatattcaggtagaaaaattgtctcaatt gagggcaagtctggaattggatggttttcaatgcataattaagggaactcaggaggcacctatgat tgtgagtttgaatgaccgttctattgcagtgggaagttatcctggtcttattgatcgacccgactt tcaacacgacgtatataagtcaaagcatactaatgctcatatagcctttaatgaatatcttcttcg ttcaaatctgccacaatcgcatcaaaatattagaaaaatgttgcgctgatagcagcagtattgagt gccctaaagccctgtagggcactcaaggttttcagtgcgtgagcgggctttaactgaagccataaa tgtacgtatgggagaaaatgtgaccatttaactcgccagcaactattgcacaatgtaaaattatgc ccattgag (SEQ ID NO: 270) 12 Control acatcccgtcatcatgccatcacgacgcgctgagacgctgaaaaaataaaatcagcaccaccgtca gcgcgcagtgctttccccgcctcgcccgcccgcttcatgagacggttttaatgcagttgcattatg tcccgctcctcagtgctgcgctccatcctgattacaaaaaccgttatcaaaaacacatgcaaatag acgcagtcaaatgcgctaccgcctctcgcaataccttcaatttcatgataaaaaacatcatcccta acaagagcattatcctcatgaaaaaagtatatgaactaaccagtgaagaagcactgtcatattttc ttcgccatgactcctacacaacattagaattaccggcttatattaatttcaccacattattaaatg atattaattcatctatccataacaaaaaaattaaaattgaaccaaccgccaaggagctgatgggta aagatatcaattatgaggtgcttgtcagtaaagatggtctatatagctggcgtaggataacactta tcaatcccctttattatgtctacttctgtagaaaaatcacagcaccagcaacctgggaaatcataa cagaaaaattcaaatcttttgaatcaaacgacctttttacatgttcaagcatccccgtcagaaaag acaactcgtcaaacattgctgcgtctgtaatgaattggtgggaagattttgaacaaaaaagccttg cccttgctcttgaatacgaattcatgttcagcactgacatctcaaacttctacccatcaatatata ctcatagttttgaatgggtattcatatcaaaagaagaggcaaagaagaaaaaaagcaaaaataacc cagggggattaattgacagccacattcaaatgatgatgaacaaccagacaaatggtattccactcg gcagcacattgatggatacatttgctgagcttatcttgggtcaaatcgatatagaattaagaaaaa aaactaacgaactcaaaataataaactacaaggtagtacgctaccgtgatgattaccggatcttct ctaatagcaaagatgatttagacataatatcaaaatgtttagtcaatgtattgggcgattttggtt tagatctaaactcaaaaaaaactgaactatatgaagacatcatacttcattcgttgaaacaagcta aaaaagactacatcaaagaaaaaagacataagtcactccagaaaatgctctattcaatatatttat tttcacttaaacatccaaactcgaaaacaaccgttagatatctaaatgattttcttaggaatttat ttaagcgaaagacaattaaagataacggccaacaggttgatgctatgcttggtattatttcaagca tcatggcaaaaaaccctacaacgtacccagtaggaacggcaattttctcaaaactcctcagttttc tttatggtgatgacacccaaaaaaaattaacaaagctagaacaactccataaaaaactggataaac aacccaatacagaaatgcttgacatatggtttcagcgaactcaagcaaaaataaacctagagtgga ataaatcttataagtcagctctatgcgtccgtataaatgatgaactcacaaaagagaaaacatttt ctgtaaataatttatggaatattgactggatccaaggaaaagaaacaagccccaataaagccaaaa tattatccttgctaagaaaaacaaaaatcgttgacacagataaatttgataaaatggatgacaata taacacctgaagaagttaatctattctttaaagagcacagcaattaatatcccaaagccatgttag taacataacatggcttttttaaatcactcattatcagttatcaagaacgaacataacattctattc cgaggag (SEQ ID NO: 271) 13  1 agttaatgactattgtgagcgagaaacgcgctactactatatatagacagacaagatgcacttact gaataaatactcataacggagaaaccagctgtatagtgaacaatagatttccagtagcatattttt acttcacttttagttattaatatgataatcataaactacggctctgccttaaatttgtgaggttgt ttcgcctcgaaggaactaatgttaggacatacgccaccgttcagtcgatggtaacgcttcttaact agtggtccgctaagtgatgcgcaaagtgattgggcagagccgaaacgtttacaatccgataggagt tggttttgtcgctacatgataaattattaatgcataacttcgcattagccaataaaaaaagccctg acttcatatctgaacttcctcaaattgaacctaaaccatacagcaatggacataaaattaaatgga taaaccacacacttactagcactgaagttactccccctgataacctgattaaaatatgcatattga ttgagtcaggggaaattgctataacatcagtaagtgatattgccaatttacttggagttcctgctg gccaattactttatatactatatcgtaaaaaagataattatcgtacttttgaaatagaaaagaaga atggtaaaaaaagagtcattaatgctccttgtggcggtctatcgatactccaaacgagactaaagc ccgttcttgaatatttctacaggccaaagaaatctgctcatggttttataaaaggaaagagcatca ttactaatgctgggatgcatattaaaaaaaattttgtcgtaaacattgatctagaaaactatttcg aatcaataagttttgctagggtttatggaatatttaaaagtaaaccttttaattttgctcatcctg cagctactgttttagctcagttatgtactcacaatggaaaattacctcaaggtgcgtgtacatcgc caatattagcaaatattgcatcagcttctctagacaaacagctcacccaatttgcaggaagaaaaa aaatatcttattctaggtatgctgacgacataactttttctttcaatcagagaaatattgatataa tcaaaaaaaacgacgacggaagttatagtcttagtgaaactatagacaatattatttcaaaaaatg gctttaaaataaattatgataaatttagagttcaaaccagaaatacaagacaaagtgttactggct tagtggttaatgataaagttaacattaacagaagatatataagaattacacgttcaatgattcata gatggacagatgataagctaaagtatgcacttctctttgctacagaaaaaggatatcaggcaaagg ataataaccacgcaattcaaattttccgaaatcatatttatggaaggcttagctttataaaaatgg ttagagggaaagactatccaggatatttaaaactgatgtcatacatgagtcataacgatccattaa aaacccaagaaggattgcgagcaatgaaagaaacagaaaactttgatgtttttatatgccatgcaa gcgaagacaaaaaagacattgcaattccaatatatgacgagttaactaaacttaaaatttcagcct tcatagatcatgttgagataaaatggggcgactccttaattgataaaataaatgcagcactagtta aatcaaaatatgtcatcgctattttatctgctaattcagtcaataaggaatggcctcaaaaagaat taagagcagttttagccagcgaaatatcgagtggcgacgtaaaacttttgaccttattaaaaaaag aagacgaggaggtcgtaaacctatcattacctttacttagtgataagttttatatggtctatgata ataatcctgaagtagtcgccaacaatattaaatcactcttacaacgataattctctcacaaaagaa aatgtgcagattgatgcgtattaagtattaatctgcacatacaaaaaaaataataaaataatacat ttttcataacttgtagg(SEQ ID NO: 272)t 14  2 cgcgctatcacgtaaaataggcaaaatacttctggaaaacagaaagttgaagtgatatgttcataa acacgcatgtaggcagatttgttggttgtgaatcgcaaccagtggccttaatggcaggaggaatcg cctccctaaaatccttgattcagagctatacggcaggtgtgctgtgcgaaggagtgcctgcatgcg tttctccttggccttttttcctctgggatgaagaagaaatgacaaaaacatctaaacttgacgcac ttagggctgctacttcacgtgaagacttggctaaaattttagatgttaagttggtatttttaacta acgttctatatagaatcggctcggataatcaatacactcaatttacaataccgaagaaaggaaaag gggtaaggactatttctgcacctacagaccggttgaaggacatccaacgaagaatatgtgacttac tttctgattgtagagatgagatctttgctataaggaaaattagtaacaactattcctttggttttg agaggggaaaatcaataatcctaaatgcttataagcatagaggcaaacaaataatattaaatatag atcttaaggatttttttgaaagctttaatttcggacgagttagaggatattttctttccaatcagg attttttattaaatcctgtggtggcaacgacacttgcaaaagctgcatgctataatggaaccctcc cccagggaagtccatgttctcctattatctcaaatctaatttgcaatattatggatatgagattag ctaaactggctaaaaaatatggatgtacttatagcagatatgctgatgatataacaatttctacaa ataaaaatacatttccgttagaaatggctactgtgcaacctgaaggggttgttttgggaaaagttt tggtaaaagaaatagaaaactctggattcgaaataaatgattcaaagactaggcttacgtataaga catcaaggcaagaagtaacgggacttacagttaacagaatcgttaatattgatagatgttattata aaaaaactcgggcgttggcacatgctttgtatcgtacaggtgaatataaagtgccagatgaaaatg gtgttttagtttcaggaggtctggataaacttgaggggatgtttggttttattgatcaagttgata agtttaacaatataaagaaaaaactgaacaagcaacctgatagatatgtattgactaatgcgactt tgcatggttttaaattaaagttgaatgcgcgagaaaaagcatatagtaaatttatttactataaat tttttcatggcaacacctgtcctacgataattacagaagggaagactgatcggatatatttgaagg ctgctttgcattctttggagacatcatatcctgagttgtttagagaaaaaacagatagtaaaaaga aagaaataaatcttaatatatttaaatctaatgaaaagaccaaatattttttagatctttctgggg gaactgcagatctgaaaaaatttgtagagcgttataaaaataattatgcttcttattatggttctg ttccaaaacagccagtgattatggttcttgataatgatacaggtccaagcgatttacttaattttc tgcgcaataaagttaaaagctgcccagacgatgtaactgaaatgagaaagatgaaatatattcatg ttttctataatttatatatagttctcacaccattgagtccttccggcgaacaaacttcaatggagg atcttttccctaaagatattttagatatcaagattgatggtaagaaattcaacaaaaataatgatg gagactcaaaaacggaatatgggaagcatattttttccatgagggttgttagagataaaaagcgga aaatagattttaaggcattttgttgtatttttgatgctataaaagatataaaggaacattataaat taatgttaaatagctaatgaacagccctaacgttatgaacgctaaggctgatttttcg (SEQ ID NO: 273) 15  3 gctcatgttatgcatgtgcatgaaaaccactgcataaagcgggcaggcgtggcggggatacgagcg 16 cgcgccatgtggtatggagattggatctattcataacttgatgtataaagtagaaaaaaaagcggg gagattatgaataaaaaatttaccgatgagcagcaacaacagcttataggacatctcacaaagaaa ggcttctatcgaggagctaatattaaaataaccatttttctatgtggtggtgacgttgctaatcat caatcttggcgtcatcaattatcacaatttttagcaaagttcagtgatgttgatatattttatcca gaagatctatttgatgatcttttggctggtcaagggcagcatagccttttaagtttagaaaatatt ctggctgaagctgtcgatgtaataattttatttcctgaaagtccggggtctttcacagagcttggt gcgttctctaataatgaaaacttaaggagaaagttgatttgcattcaagatgcaaaatttaaatca aaacgtagctttattaactatggtcctgttcgcctgttgcgtaagtttaattcaaaatctgttttg cgttgtagttcaaatgaactaaaagaaatgtgtgattcatctattgatgttgccagaaaattacga ttatataaaaaattaatggcatctattaagaaggttaggaaagaaaataaagtatcaaaagatatt ggaaatatattatacgcagagcggtttctattgccttgtatctatttactggatagtgtcaactac cgcacactgtgtgaactagcttttaaagcgataaagcaagatgatgttttatctaaaattattgtt agatccgttgtttctcgtctaataaatgaacgaaaaatacttcaaatgactgatggttatcaggtc actgctttgggggctagctatgttaggagcgtctttgatagaaagacacttgaccgattgcggctt gagattatgaattttgaaaaccgtagaaaatcaacatttaactatgataagattccgtatgcgcac ccttagcgagaggtttatcattaaggtcaacctctggatgttgtttcggcatcctgcattgaatct gagttactgtctgttttccttgttggaacggagagcatcgcctgatgctctccgagccaaccagga aacccgttttttctgacgtaagggtgcgcaactttcatgaaatccgctgaatatttgaacactttt agattgagaaatctcggcctacctgtcatgaacaatttgcatgacatgtctaaggcgactcgcata tctgttgaaacacttcggttgttaatctatacagctgattttcgctataggatctacactgtagaa aagaaaggcccagagaagagaatgagaaccatttaccaaccttctcgagaacttaaagccttacaa ggatgggttctacgtaacattttagataaactgtcgtcatctcctttttctattggatttgaaaag caccaatctattttgaataatgctaccccgcatattggggcaaactttatactgaatattgatttg gaggattttttcccaagtttaactgctaacaaagtttttggagtgttccattctcttggttataat cgactaatatcttcagttttgacaaaaatatgttgttataaaaatctgctaccacaaggtgctcca tcatcacctaaattagctaatctaatatgttctaaacttgattatcgtattcagggttatgcaggt agtcggggcttgatatatacgagatatgccgatgatctcaccttatctgcacagtctatgaaaaag gttgttaaagcacgtgattttttattttctataatcccaagtgaaggattggttattaactcaaaa aaaacttgtattagtgggcctcgtagtcagaggaaagttacaggtttagttatttcacaagagaaa gttgggataggtagagaaaaatataaagaaattagagcaaagatacatcatatattttgcggtaag tcttctgagatagaacacgttaggggatggttgtcatttattttaagtgtggattcaaaaagccat aggagattaataacttatattagcaaattagaaaaaaaatatggaaagaaccctttaaataaagcg aagacctaat (SEQ ID NO: 274) 17  4 acgtgtcttgatttaagttgacttcaagactataaagtctcaagtaacagtcggttagcttccttc 18 atgggttggtcatgccgggttgttaagtatggctgtttgcgataagctttaaatactctttagcgt 19 tggacggttacgtctagtcgggtgattagccagactctaacttattgaacgtattaagggttgcga aagtgtcgcaacccgagatcgttcctctctcgggttgcgacactttcgcttcctcaagtaaagagt gaagcccggcgcaaatgcgccgggccattttcaggtactgttatgtctgttattcgtggattagct gcggttttacgtcaaagtgactccgatatcagcgcctttcttgtaaccgccccgagaaagtacaaa gtttacaaaatccctaagcgtacgacgggatttagagtcattgcccagcctgccaaagggctaaaa gatatccaacgagcctttgttcagctctatagcctccctgttcatgatgcttcaatggcctatatg aaagggaagggaattcgtgataatgctgcagcacatgctggcaaccagtatctcctaaaggcggat ctggaggatttttttaactcaattacaccggcaattttttggcgttgcattgaaatgtcatctgcg caaacacctcaatttgaacctcaggataagctttttattgaaaagatccttttctggcaaccgata aagcgtcgcaaaaccaaattgatattgagtgttggtgcgccttcttcaccagtcatatccaatttc tgtatgtatgagttcgataatcgaattcatgcggcttgcaagaaggtggagataacatacacacgc tatgcagatgatctcacgttctcgtctaatatccctgatgtactgaaagcagttccttcaacgctt gaggtcttactgaaggatttatttggaagcgcgctcagacttaatcacagcaaaacggttttttca tcaaaagcacataaccggcatgtgactggtataacaataaataatgaagagacactttcactcggg cgcgatagaaaaagatttatcaaacatctgattaaccagtataagtatggactccttgataatgag gataaagcttatctgatcgggctgttagcatttgccagccatatcgagcctagtttcatcacacgg atgaacgaaaaatactcattagaactcatggaacgcctgagaggacagagatgaccaagcaatatg aaagaaaagcaaagggtggaaatttactgtcagcattcgaactttaccaacgtaatagtgataaag cgcctggtctgggtgaaatgttagtgggtgagtggttcgaaatgtgcagggattacattcaggatg gacatgttgatgagtcaggaatatttcgtccagataatgcgttctatcttcgccgcctgacgttaa aggattttcgccgtttctctcttctggaaattaaactcgaagaagatctgacagtcattattggca acaatggtaaagggaagacaagtatcttatatgcgattgcaaaaacgctgagttggttcgtcgcga acatcctgaaggaaggtggtagtggacaaaggttaagcgaaatgactgacataaaaaatgacgctg aagacaggtattcagatgtcagtagcactttcttctttggcaaaggacttaagagtgtgccgatca gattgtcacgctcagcccttggtacagccgaaaggcgggacagcgaggttaagcctgccaaggatt tagctgatatatggcgagtcatcaatgaggtgaatacgatcaacttgccgacgttcgctctttaca acgttgagcgatcgcaaccgtttaaccgcaacataaaagataataccggacgcagagaagagcgct ttgatgcctatagtcaaacgctcggtggcgcaggacgtttcgatcatttcgttgagtggtacattt acctccataagcgtactgtatcagatatctcaagttctattaaagaacttgaacaacaggttaatg acttacagcgtaccgttgatggcggtatggtttcggtaaaatcacttctggaacagatgaagttta agcttagtgaagctatagaaagaaatgatgctgcggtttcctcgagagtgttaactgagtctgttc aaaaaagtattgttgagaaagcaatctgctcggttgtccctagtatcagcaatatatgggttgaaa tgataacgggttctgatttagtcaaagttacaaatgatgggcatgatgttactattgaccaattat ctgacgggcagcgtgtatttctgtcgttggtggccgatcttgcgcgaagaatggttatgctgaatc ccctgctggaaaatccattagagggacgtggcattgttttaattgatgaaatagaacttcaccttc atcctaagtggcagcaggaagttatcctgaacctgcgcagtgcattccctaacattcaatttatta ttacaacacacagtcccattgttctttctacaattgagaaacgctgtattcgtgagtttgagccca acgatgatggcgaccaatcattccttgattctcccgatatgcaaacaaagggaagtgagaatgctc aaattcttgagcaggtaatgaacgtacattctacaccgcctggtattgctgaatctcattggttag gtaattttgaactattgcttttagataattctggagaacttgataaccactctcaagtgctttacg accaaatcaaggcgcactttggcatcgatagtattgagttgaagaaagcagatagccttattcgca ttaataagatgaagaataaactgaacaagataagggccgagaaggggaaatagtaatgagagagtt agcccggctggagagaccggagattcttgaccagtatatagccggtcaaaatgactggatggagat tgatcagtctgcggtatggccgaaattaactgaaatgcagggcggattttgtgcctattgcgagtg ccggttgaacagatgtcatattgagcatttcaggccaaggggaaagtttcctgctctgacgtttat ctggaataacctgtttggttcttgtggcgattcaagaaaaagtggcgggtggtcacgttgcggtat atataaggacaatggtgctggcgcctacaatgctgatgatcttataaaacctgatgaagaaaatcc tgacgactacctgctatttctcactactggagaggttgtaccggctatcggactcacggggagagc gcttaaaaaagcgcaggaaactatccgtgtttttaacctgaacggtgacataaagttgtttggcag tcgcagaactgcagtgcaagcaatcatgcctaatgtcgaatatttgtatactctactcgaagagtt tgacgaagatgactggaatgaaatgcttagagatgagctcgaaaagatagaatctgatgaatacaa aacggccctaaaacatgcatggactttcaaccaagagttcgcataatcctaaa (SEQ ID NO: 275) 20  5 gtccttaaacacgacaaaacctgtgatacttaccatggattcctctatgaaggaaaggtagtatag 21 ccattttgggtgatacatacagtgaatgtcattgctgtagttgaagtgagtaagagcgcttaagat taagttgagagaaaatgaaactacttgataaaaagtattacaacctcgagcccaaatatgagtacc ttaaggactcatttattttaggactggcatggaaaaaaacagatagttttgtaagaactcacaatt ggtatgcagatattttagagctggacaagtgtgcgtttgatattagtgatgaagtcactaattggt caaacgagatctcaaagaacgctctttccaaaagtgatattgaattgataccggctccaaaaggag caagctggttcattaatcaaggtaaatggactaccaataaagataatagaaagataaggcctttgg ctaacatatctattagggatcagtcttttgctacagcagtaacaatgtgccttgctgatgctatag aaacaagacagaaagactgttcgttgagcaatcttggctatgctgagcatgtaaagaacaaggttg ttagttacggaaataggcttgtctgcgattgggacaatgaaagggcaagatttcgttggggaggaa gtgaatattataggaagttctcttccgattatcgaagctttctacaaagacctatctatataggca gggaaacagtaaataaagttagcggaattgatgatgtatatatcatcagtttagatctgaaaaatt ttttcggttctataaaaataaaccttctgttagaaaaaatcaaaaaaatatccgctgatcattatg cagctaaattcataaatgataatgaattttggactttggcgaatcggattttaagttgggattggc ctgaagaatctttatctttacttgagagtttggatataaaagaaaaaaatgttggtcttccccagg gattagcttctgctggtgctctggcgaatgcatatctcattgagtttgatgaatctttaatttcta agcttcgtactaagatagaagacagccaaataatactgcatgattattgtcgatatgtcgatgata ttagattagtgatttcaggagaagcactagaaagtaataagattaaggaatctattcatgcattag ttcagggcattcttgatgagacattggctcaaaatccgtcagataatgaaccatatttaaaaatta acgatagcaagacttatattcttgagctttcagacattgacaacggaagtgggcttacaaatcgaa tcaatgaaattcagcatgaagtaggagcttcgagtatcccagagcgtaacggactcgataataata tcccggcacttcaacaattattactgaccgaacaggataatttttccgaggatgttgatagtttat ttcccgggtttaaaaatgataagtcgataaaggtagaatctgtacgtagattttctgcccataggc tggaaaaaagtttggctaaaaaaagcaagctaatttcacctgaggagaggaaacaatttgataatg aaacctcactgattgcaaaaaaattattaaaagcttggctaaaagatccatcaattatggttatct tccgcaaagcgatagctatcaatcctaatctagatgcttatagcaccattcttgaaattatttttt caagaatacaacgcaatcgtgataaacgagataaatatataatgctgtatcttctttctgatatat ttcgtagcgtcattgatgtctatcgaaacctagaatcagaatacgtcgacgattatcaaaaattga tgggtgaagttacattgtttgcccaaaaaatactttcctgcaaatcttttattccaaattacgcat atcagcaagcattattttatctcgcagtgatcaataaaccatttatagctagtaataaagcttctt ttgatcttgcaaggcttcaatgcgtcttaattaaacagcatttagaaccgttgaatagtagtgatg gatacctatttgaggtatctgctcaaatcagtaaagactaccgagcaaatgccgcttttctacttt ctcatacaaatagtaacaaagtagtagacttaattatcgaaaaatttgctttccgaggaggtgaat tctggaatgcaatttggaaagaaattgttaggatgcaagataaagataggattaacgaatttagat gggccatatcaaaatatgagtcaaagccaaatagttcggagcactatctttcatcagtgatcagtt tcaaggaaaacccatttagatatgaacatgcgcttctcaagctaggtgtagcattagttgaactct ttgatgatacagagaaaaacgtatggcaacctgatggtaagcagtattctccacatgaaataaaag taaaattagaaggtaactcaacctcatggggtgaattatggcgtccaaattttagtatttcatgct cgatagataagaaaggtgaacctggtaaagacccacgctatataagccctgagtggttggcaaatt atccacagactcaaaatgatgaacaaaaaatctattgggtttgcagtgtgctaagaagtgctgctt taggcaatgtagattatactcaaagaaatgatttaaaacttgataaagctaagtatgatggtatcc attctcagttttacaagcgacgtatgggaatgttacatacaccagagtcaattgttggttcatatg gaactataacagattggtttgcaagttttcttcagcatggattgcaatggccaggtttttcttctt cgtatataagccaagaagatatattgtcaattactaatattattgagtttaaaaactgtttattgg aacggctaggctacttaaataagcagatatgtatttcatcgaatgttccaaccttaccgactgttg tcaacaggcctgaattagcatctaaccattttagaattgttacggttcagcagttatttcctaagg atactaatttccatccttctgacgtgactttggctaatcccgatgtgcgctggaagcacagagagc accttgcggaaatctgtaagctaacggagcaaactttaaatgcaaaacttaaaactgagtctaggg aacatacaagcacagctgatctaatcgttttttctgagttagcagttcacccagaagatgaagata tagttagagcactggcatttagaaccaaagccatcattttttccggctttgtcttctgtgaacaag atggccgaatagttaacaaagctcgttggattattccagactcttcagagtctgggacccaatggc gtgtccgtgatcaggggaaacatcatatgaccagtgatgaagtggctcttggcattcaaggatata gaccatcccaacatattatttcaattgagggtcaccctgagggaccatttaaattaactggtgcga tttgctacgatgcaacagatataaagcttgcggcagatctgagagatttgactgacatgtttgtca ttgcagcatacaataaagatgtagacacatttgataatatggcttcagcactacaatggcatatgt atcagcatattgttattacgaatacgggagaatatggaggctcaactatgcaagccccgtacaaag agaaatatcataaattgatttctcatgctcatgggactggtcaaatagcaattagtactgctgata tagatttagcagcattcaggcggaagctacaaatatataaaaagaccaaaacccagcctgctggat acaatagaaaacattaaggatttttatggatactttagttaagttagctacaattatttctccatt aattagtgctggagtagctatttgggcaattttggttgctaaaaaaaccatcagtgaaagcaaaga aattgccaagaaaaccatcgctgatacggcctaccaagcatatttgcaattagccatggagaaccc acaattttcgaaaggctacagcgcagattgtagacaggagcgagaccctatgtatgatcaatatgt ttggtacgtggctaggatgatattctgctttgagaaaatcatcgaggttgaagtaaacttaaaaga tagttcttgggcaaatacgttggaaaaacatttgaagtttcattctgaacattttaagaaaacgaa tgttgtcgaagaggctctctatattccccctattttggatctcataagatgtgcagctaactaata acttatcccaataggattatattccacacgataagcccactggaaaatgtaacatcccaagatagt ttttgggattgtttcccagtgggcggaaagtatcatgatagttgtcacccccggtggagctgcaaa gatttttatggggtgggtgttacattgcg (SEQ ID NO: 276) 22  6 acacgatataaaaccatctcattgcttgctgggttaactgagttgctgaatttttttctagaattt cgcaaaatttaataggtaaaccttgtttttttaaatttacgatgatataaaaataatgccctaaac aaaggtttaggggtattgtacaggttgtcaagcctcccacaggtcttggtgaaaccaatcactgtg acgacggtaagcaacacttggatgatattcataattgactccacgctactgattacattatacagc atatctaacatttgcggcgaggttcacaatttgtatttaggtactgattgtggatgagaaggttgg agaaagaccacttggttaagccggaggatgtgtcctagaattgtcgctattctgtcatcctccggt tttgctaatttcattcagggaatataatgaataatgatgattacccatggttcagaaaacgtggtt atttgcatttcgatgaacctgtttcattaaaaaaagcggttaaatatgtttcctctccagaaaaaa taataaaacattcttttctgccatttttaagctttgaagtaaaatcgtttaaaatcaaaaaagaca aatcaacaaaacaattaagtaaaactgaaaaattaagacctattgcctattcctcacatttggata gtcatatttatgcattttacgcagaatatcttactggacattatgaattattgatccaagaaaaca atttacacgagaacatccttgccttcagatctttaaataaaagcaatatagaatttgccaagagag catttgatacaattactgaaatgggtgagtgtagcgctgttgcattagatctttctggtttttttg acaatttagatcatcaaattttgaaacaccagtggtgcaaagttattgggactgaagcgttgccgc aagaccattttgccatatacaaaagtataacaagatattctaaagttgataaaaatagagcgtatg agattttaggtatatcaaagaataaccccaagtataatagacgcaagatctgcacccctgttgatt ttagaaataagattagaaaaaatggtcttattatagttaataattcccaaaaaggtataccccaag gctcgccaattagtgctctactttcaaatatatatatgcttgactttgatattgaaatgagagatt acgcgcaggaacgtggtggccattattatcgctattgtgatgatatgctattcattgtaccaacta agtataataaaactctagcaggtgatgtagcccagcggattaagcatcttaaggtagaactcaata ctaagaaaactgagattcgagattttatatacaaagacagtaccttagtggcaaatatgcctttac agtatcttgggtttatttttgatgggagtaatatattattacgttcatcttctctcgcaagatatt cggaacgaatgaaaagaggtgtccgcttagcaaaagctacaatggacagcaagaataggattagag aaaataaaggtgaagctttaaaagctttatttaagaaaaaattatatgccagatattcacatattg gaagaaggaattttttgacttatggttatcgcgccgcgaagatcatgaattcgaaagctataaaaa gacagttaaaaccattgcagaaaagattggaaaatgaaatactaaaataaatatttgctggcccga atcatacagggccacaatacagttgaaaacaagctataataaacaacatctaatttttatatac (SEQ ID NO: 277) 23  7 tctcaacttccccaaatgtccgtattcatccataaataccctgatttataacaattttaccgtttt 24 ttagtccatcatcgtccgcagccatccagtagaatccgataaagaatgtgtataggattgtgtata tgttcctgttcggtcatggattcctatacacatgcctttaaacgatatgcagattcgccgcgctaa gcctgaagataaaccctatacgcttggggatgggcaaggcttgtcattgcttatagaacctaatgg aagcaagagctggcggttccgctatcgctatgccggtaaacccaagatgatctcgcttggcgttta cccaacgatcactcttgccgatgctcgttcccgtcgtgatgaagctcgaaaacttgtggcagaagg aaagaaccctagtgatgttcgaaaagagcaaaagctggctctgcaagcagagtcagagaacgcctt cgaaaagatagccagagagtggcatcaacttaaatctgctaaatggtcggcaggatatgcatcaga catcatggaagcgtttaagaacgacatttttccttatgtgggaacaaggcctgtgagtgagattaa accgctagagctgctgaacgtactgcgtaaaattgagaaacgtggtgcgttggagaaaatgcggaa agtgcgtcagcgttgctctgaagtgtttcgctacgcaattgcaacgggtagagcggagtacaatcc tgcggcagatctttccagcgctctcgaagtgcaccaatccaatcatttcccgttcctaaaagctga tgagatacccgaatttctgcgtgccttagagagttacaccgggagtaagcttgtccagatagcaac gaaattactgatgattacgggcgtgagaaccatcgaattacgcgcggcattatggcaagaatttga tctggataacgctatttgggaaattcctgctgaaaggatgaaaatgcgcaggccgcatcttgtgcc attgtcgacccaagcgttagatttactccatgaactcaagataatgacagggaactatcgttatgt ttttccaggacggaacgatccgaacaaaccgatgagcgaagctagcataaatcaagttatcaagcg tatcggttacgaaggccgactcactggtcacgggttcagacatatgttatcaacaattttgcatga agaaggttttcaatcagcatttattgaagtccaattagctcatgttgatagaaataatataagagg aacttataatcatgccatataccttatggaaaggcagaagatgatgcaatggtacagtgattatct tcgcaaaaaaaaggggttataatatgttaaaccagtcattttccgtttcgaacttaattaagcttt taaaaaaaaccgatccaaaaagatacaaaattggtaggaattcagctgaatataaaaaatatatag ctgataaagttaatggctcaattgaaacatactcatttggttcgatctcaaattcaagaattaaca acaaaaatgtgtatatatttaaagattttatggatgtacttgtcgccaggaaaataaatgataaca ttaagcgtgtgtatagtgttaaacaaaacaacagacatgacatcataaaaaaagtaaatacagtgt taagtgagcctgtaaattattatatttacaggctggatattaagagtttttatgaatcaatagata aaaatatcgttttccaaagaattaataataacccgattatttctcataatactaaaaaatttatca atggtctttttaaacataacgctttctctgcaaataacggacttccccgtggtatgggattaagtg cgactttatcagaaatatttatggaggaatttgatgctgagttggcgaggctgcctgaagtatttt atgcttcaagatatgtggatgatatcatagttttttcattctataaaataccagattataaaaatt atttttcaaggattttaccaaatggattacatttaaatgaaagaaagtgcagtgagtataccatag aggacacttcaactaaacattctgaaattgagtttttgggatattcatttattatacaccatggat taaaaaatcagcgtcgtcatgttgtgatcagaatttcggaggagaaaataaagaaaataaaaagaa ggattgcacttgcggtaaaagattactcaaataattctgatgcagaactcttgaagaaaagaataa agtatttaactggtaatatattagtaaactccaatagtaataaaactgatgctttatatagtggaa tttattacaattatcaacatttaactgataaaacacagctcaaggaacttgatatatttaagaata ggatgctattttcttcaaagggcgaggtggggagaaaaattttagcagcaggtcacaacttattaa ctgcgcctaaaaaatactcatttttggctggttttgaaaaacggctactgtcttcttttaaacggg aagatattattaaaataaataaggtttggtgattcatgaaaattaaaatatcgaagagtgattata aaagagtacttctcacggatattttaccatatgaagtccctatccttttttctaacgaaggtttct ataagttaatttctgaaaataaagttttacccggaacattttcagaaggccttaagctggattctt ataccatcccttactcctataaaataaaaaaggggctggcgagttctcgaagccttggcattatac atccttcaacgcagttaagaatctgtgatttttatgataagtatgaacatttgatggttcatatgt gtacaaaaagtccgttttcgctacgttatcctagcaaaatagggagctattattacgaaaaggact tcttaaaaagtagaataaatctaaaagatggtcttgtacaatttcataatcatggctttgattccc aagaaacttcctcatcttcccatttttcatataagaaatatcctttcatctataagttttatgagt catatgaatttcatagattggaaaggaagtttaggaaacttttaaagcttgatattgctaagtgtt ttagtcatatatatacacacagcgtttcatgggctgtaaaatctaaagaattctctaaggttaata gaacttataacagctttgaaggttgtttggataagctttttcaagatgccaattatggtgaaacaa atggcataataattgggcctgaattttcaaggatatttgcggagattatattacagcgcgttgact tgaatgttgagtctcatttgaatcttgagccaggcatagttaaagataagagctatgctataagac gttacgttgatgattattttatatttgcggatgatgatgaaacatttaagctaatagaatttgtac tggcaaatgaactcgaaaaatataagctttatttgaatgaatctaaaaaggaatttatcgagaggc cattcgtgactggagctacgatggctaaaaatgatattgcagaaatcattgaggatttatatggat cgttaatccatactgagaagttggatgagttaacagctatggttaatttaaatccagacgtcaaaa ttcagcctgaaaatatgaatgacctttttccattgaaaggtgtgtggaataaaaagctacacgcgg acaaatttataaaacgaatcaaaattgcggttagaaaaaacaataccacatttgatcttgttagct catacttattaagtgcgattaagagtaagtttttcaaagtaattaggctgttgaggatgttcgatc tgtcaggaaaagaagatataacttataaattcttctcaatattcaatgaggtgattttttttattt atgctatggattttcgagtccgacagacatacataattagccaagttattttggaaataaattcat ttgctaataagcaagcttcagacattagtgaagttataaaaaagaatacttttgatgagcttctta tgtgcatgaaaagcatgggtaatattcatgagaggccagtggagttatctaacttacttatatgta tgaaaggtttgggggagcagtataaactcaatccagatgaatttaaggatttgttgggtattagtg agaatgagtgtttttacgatttagaatatttttctatatgcagcatgttacactatataggcgatg atgttctctatctaaaaatgaaagaagatattgtccttgctatacagagtttgataagtggtcgga acgatataaaaaaagacactgaaacatttatgctattccttgatatgatgacgtgcccatatctta cagttaagcataagagaataatttatagaacatatgtcgaagcaaatacaggtcaaaaaagattta cgaatgcagtaattgattctgaaattgattctttaaaaaataatgtaatcttttttaactggtctg gagatgctgatcttgagcacgttctttataaaaaagagttgcgaacagcatatgaatagtagtatt ttaatttcgttaaagggttgcgatgcctaaggtttcgacctgaagcagataccggaagatcggctt ttgaatgttcatccgaaagatattcgcgatacgttttgaggatggaccgatttagacacactattg ccttttagctaaacaggccgcgaaagcggcctttttaatgaatcagatttcccctcaccgatctca atacttcccctcagcgtgcgcagccccgcccgcctgcccgcttcgcttaacagactggttttcatg caccccttaaatcgtctcagaagccaccacacaagggctttcgcgtcaaaaatggcgcatgagact catgcgttttcatgcgccatagatatgcactcatacgctctcaggccagctagggaaaaagcgtaa aaaatcccggtactggaccgagacttcgtgggcgtattttgctaa (SEQ ID NO: 278) 25  8 agcatcggagcaaagtaactcaataccgaacaataaatatgagcccttcgtgaaaccgggtaaggt caaactcataaaccaacaaaaggggaaaagtgggatatgtgaggcgtgtatgatttttatttattg ggcttcgttaaaaatggtgatttaatagccctttaaatttatcactttttaactaactccgagggt ttatggtcatttttgacgagaagcgacacctgtacgaggcactgctgcggcataactacttcccta atcagaaaggctctatttccgaaatccccccttgtttcagctcccggacctttacaccagagatcg ccgagctgatctctagcgatacctccggccggagatctctgcagggctacgactgcgtggagtact atgccaccaggtataacaatttcccacgcacactgagcatcatccaccccaaggcctactccaagc tggccaagcacatccacgacaattgggaggagatcaggtttatcaaggagaacgagaacagcatga tcaagcccgatatgcacgccgacggcaggatcatcatcatgaattacgaggatgccgagaccaaga caatcagggagctgaacgacggattcggcaggcgctttaaggtgaacgccgatatcagcggctgtt tcaccaatatctattctcacagcatcccttgggccgtgatcggcgtgaacaatgccaagatcgccc tgaacacaaaggtgaagaatcaggacaagcactggtctgataagctggactactttcagcggcagg ccaagagaaacgagacccacggagtgcctatcggaccagccacatcctctatcgtgtgcgagatca tcctgagcgccgtggataagaggctgcgcgacgatggcttcctgtttcggagatacatcgacgatt acacctgctattgtaagacacacgacgatgccaaggagttcctgcacctgctgggcatggagctga gcaagtataagctgtccctgaacctgcacaagaccaagatcacaaatctgcctggcaccctgaacg acaattgggtgtctctgctgaacgtgaatagcccaaccaagaagcggttcacagatcaggacctga acaagctgagctcctctgaagtgatcaacttcctggattacgccgtgcagctgaacacacaagtgg gcggcggctccatcctgaagtacgccatcagcctggtcatcaacaatctggatgagtataccatca cacaggtgtacgactatctgctgaatctgtcctggcactaccccatgctgatcccttatctgggcg tgctgatcgagcacgtgtacctggacgatggcgacgagtataagaacaagttcaatgagatcctgt ctatgtgcgccgagaacaagtgcagcgatggcatggcctggaccctgtacttctgtatcaagaaca atatcgacatcgacgatgacgtgatcgagaagatcatctgctttggcgattgtctgtccctgtgcc tgctggatagctccgacatctatgaggagaagatcaacaatttcgtgtctgatatcatcaagctgg actacgagtatgatatcgaccggtactggctgctgttttatcagagattctttaaggacaaggccc caagcccctacaacgataagtgtttcgacatcatgaagggctatggcgtggacttcatgcctgacg agaattacaagacaaaggccgagtcctattgccacgtggtgaacaacccctttctggaagacggag acgagattgtgagtttcaacgactacatggctatcgcatgacttttaggcctcatt (SEQ ID NO: 279) 26  9 aagtgaacggatgtatattgagtgcaatgtgattaactatctgttgttacaatatttagataggtg ataaaatatgacatctaccattgatttttatgaatctgatttctcagccacattatacccattaaa aaccaatcaaatattactcaagcatcactcacaagagatgtcagaatatatttatcagaaggtcat taatcctgcatatccaacagatagttttctgtctcagcaaaaagtcttttcgactaaacctaaagg tcatttgagacgaactgtaaaattagatccagtagctgagtattttatttatgatgttatctatcg aaacaggaagatatttaggccagaagtaagcgagtcgagaaaaagctttggatatatttttaggaa cggtagcaggatacctatccacgtttcctataatgaatataaacaaagcttaaaaaaatattctga gctatattctcacagtatacattttgacatagcatcttattttaatagtttatatcaccatgatat aatccactggtttagctcaaaagaaggagttagccctgcggatgttgaagctctcggacagttttt tcgcgaaattaactcaggacgaagtatcgattttatgccccaaggaatttatccggcaaaaatgat cggtaatgagtttctaaaattcgttgatttacatggtcgcctaaaatctgctcaaatagtaagatt tatggatgactttactatttttgacaatgacattgaaacactaaataatgatttcatcagaataca gcagttattagggcaagtatccttaaatataaatccgtcaaaaaccacatttgacaatgtgatggg agatgtgaatgaaaccttaactcagatcaagtcatcacttaaagaaatcattacggaatatgaaca tatacctacagcctcaggggtagaggtagtcgagactaatattgaaatcataaagcaccttgatga tgaacaagttaacaaattaatagacttgctaaaagatgaaaaaatagaagagtctgatgccgattt aattcttggttttttgagaactcataatgatagtttactttctcagatgccaatgctattaggcag attcccaaatttaataaaacatatttatacgatctgttcaggtattaccgataaatcaggattagt aaaaatattgctcagctatttaaatactaataataactttttagaatatcaattgttttggattgg agcaatagttgaagactatctattaggtgtaggtgagtatggctccgttttacacaagttatatga gttatctggtgattttaaaattgccagagcaaaagtattagagataccggaacagggttttggttt caaagaaataaggaatgaataccttagaaccggacaatcagattggttatcatggtcttcggctat cggtacgagaaatcttaaatcagcagagagaaactatattcttgattatttctcaaaaggctcacc aataaattatcttgttgcatcttgcgtcaagaaactttaatttaaaagccaccttcttgaaaggtg gctttaaaaaatacctttagttcc (SEQ ID NO: 280) 27 10.A gaggatttatgcacaaaatcctgatgcgaaatgttttcaaaaattgtcaggttaacgttcctgcag 28 atctttgcgttacatgtcatttctggatcctttcccgacaggttaggttgtgattgatatgatgcc catctctcattttagtgatcgttatccctttataaacaggagtttatatgttatctatatgcaata gacttaaatcgatatacgtgcgcagcttacgattcacctctctacttactatttaaggaaaagagt gaggggagaattgattttcattaagatattatgagagaattatgactagtgaaatagtgttaaatc ttgatttcccagaatataaggatgatttttgtactgatagcattgatgagcaagataatgagttgt ggcagcaacaggccaataaaaagctactttcgtttctcgaggtgatgggggaggaagcaagacgat ataaagaaaataattcccgtagtacgcatccacattataagacattgagtagttatcaccatgcaa tctttatcagtggcgcgcggggggcggggaaaactgttttcatgagaaatgccagatttagctggc aaaaacattataataaagatctaaaacgccctaagctatattttattgatgtgattgacccgacgc tattgaatattgatgaccgtttttctgaagtcattatcgcttcaatatatgctacggtagaaaagc ggatgaagcaacctgatattgcgcagaatatcaaagataattttattaattcgcttaagacgttgt ccggtgcattaggtaaatcaaaagattatgatgaatataggggcattgatcgtattcaaaaatatc gttctggaatccaccttgaaaaatatttccatcagttcttgatttcaagcgttgagttactggatt gcgatgcgctggttttgccgattgatgatgttgatatgaaaatagataacgcttttggtgttctgg acgatattcgctgcctgttgtcatgtccattagttctaccattagttagtggggataatgatcttt atcggttcattgccaaaagtaaatttgaggaattattaaatcgtaaagcaaactctaattatgcta aagaaggcagcgagatagcagaaagattatcagaagcatatattactaaagtattccccagccatg tgaagatacccctccaaccgatagatgagttgttgccatatctttatatacattctaatgaagatg aaaataaacaacatacaagctattctgaatttatcaaacttgtacaacaaaaattctactttcttt gtaatgggcaagaacgaagcacaaattggccgcagccgagaagcgcacgtgaagttacgcaactaa tccgttctttacctccgtctactcttagtaaggaagatgattcgggaactgatttatggcaacgct tcgctgtctgggcggaagaacgtcgcgatggattagcattaaccaatgttgaatcttatctgttta ttaagaatgcgaaagcagtagaagatttaaatctgtcaaatcttattgcttttaatcctttactgc aaaaaggaaaatatccctgggcagaaaaggatttttataaacagcagtcccaacgtcggaaagagc tcaatgcccccgaaacaaattcaggtatccttaataccgtattttccgaacaaaggaaagatttta ttttaagaagtatgcctgcgctggaactcattatggagcctatgtatgtcactaagacggtagcag aaaaaaatgataattctgcgcttatagcgatctatacccattctgattattacagccagcagcaga acagacgatgtcatatattttttggcagagcttttgaaataatgttctggtcagtattagcgaaaa ctgaaaatcttccacaagaattttatgaaaaagataagtttaaatctttatttggtaatattttca aaaaagtaccattctactcaatattttcaatgaaccctacaaaggttgttgatgaagaaaatgacg atggcagtgaacctgatttttcgcaaaaactggacgatagcattaatgaactggtggaagatatat atatctgggcaaccagtaataaattgcgagccttcaaaaataaaaatttaatacccttaatgacgt gcgtttttaataaggtattttcacagatcaatgtactgagaaaaaacgtgcaggacagagttaaat ttagagatgaacatttgtcagatctggctaagcgatttgagtatatgtttattaatgctatcttta ctttcatcagagaaggggtagttgtcaataccaatgtggcaacaggcgcagctcctgccagagtac gtaatttatcagagtttaataggtatgataaaacattatccaggaatatgtccgggattttatccg tgaaagaggataatggcttaacgatagtcaaagagagtgagggcgatatcgcagatctgttatttg aaatttggcatagcccattatttaaattaacaaccaggacatgttacccaataggtaaaataaatt cgcaaaatacggcccaggaaaatttatcatcagattttaattcattttttgaaaatggtatcaact tcgaattgataaaacaatattattggcaaacttcaaatcatgataatatcaggacagcagacgtta gggaatgggcaacttcacgtcttaatgaagcaatcatccttttttcatggatgaaagaaagcaagt ctattaaagcgaaaattgacggacagagctacgagggtcggctctttcgcgggcttcagcaggcgc tggaaggttatgaggaggtctgagtatgtttaatcaggatccttattggctcattcctaccctttg tctggcatcagaccgaattttttatgcacaattgcgagaccacttaggccagaaaagtagcggtga acgcaaaaaagaaaaaaatggatatatactggtacaggcggcacaagactatcaattctattttgg cggccgtattcggaaagaggatgtgcaaaataatgccttaatgtggcagatagaaactggtaatga aaattgcttatcgatgcttgatagtttgtcagcatatttcctcacatggcgcggcaattgttttga ggtcaggcgtgagcgacttgaaccctggctgatgatctgttccgtgatagatcccgcatggattat tgcctatgcataccaacaattgattaaacaaaatgttgtatgtgatagtgagcttatttctttgct gacagaacatcaatgtccatttgcctttccaaaaggcagaggggacatttcctttgctgataatca tgtccatcttaatggtcatggttatagttcaatttcaatgctgaactttatagatggaaattataa ggttaaaaaagggataaaatggccctatcggcaggaatacaccctctttgaaagtggtcttctgga taaaaatgatcttccccgctggctgtccgcttatagctcttgcttacttaaaaatgtatataattc atttcaacaaggaaaaagatccgaggtagatttcacatgtctgaaggatgcggtcgaaacggtgct tgcggatgaggataaatattattttttagaggtagcttcgctatatgatgttgtcaccttgcagca aagagtgctttatgaagccgcccagcagaaatatcactcacatcaacgttggttactgtatacttg cggaataatgttaggtacagaatctgaagattatgcgaatgcgctggctaacctgatccgaatcag caatattctaagaaactatatggttgtatctgcggttggattgggacaatttattgattttttcgg cttcaactatcgtcgaataacaaagccagctgatacaaacaaccgagttcattatgattcttctgc tggtatttccagagaatatcgtgtctctcctgattttgtactgggtagcggcgtaatgcctgatat atatgccaggcaacttttcgatttttattgtacccaagcacgcaagggcgtacccgaacaaggaca tattgttgttcattttacacgttcctttcctgacaaaaaatcaacatatgataaattgctaaccga gtgtcgcgaacggttacgttctcagtgtgattattttggccgttttttaacatcgcttactttgca gtcgatagaatataaaaatttatctactgatgaagatcgaagcatagacattagaaaattagttcg tggctatgatgttgctggaaatgaaaacgagctacaaatagaggtatttgccccggttctccgggt actgcgtgctgctaaatttaaaggggagggggtgaactttaaaaggctacagcgcccttttattac tgtacatgctggtgaggattattgtcatatactcagtggccttcgggctatggatgaagccgttga attttgtatgttaggagaaggcgatcgtatagggcatggattagctctgggagtagatataaaact atgggcgaatcgccaaaagcgagcatacctgacggttggacaacatcttgataatttggtttgggc atatcatcaggcagtattactttctcaacatattgtcgagcatataccagtaatgcatgaattaag ggataagatccattattggtctcatcaattatatagtgaaacttatacgccagatttactctttaa agcatggctgctccgccgtaactggccggattataagtcaatcatatctgatccagcaaatatcaa tgaatgggtgcctgaccaacatattttagtcagtacagatgagactacagctaaggccagaaaaat ttgggaacgttatttaaatagcggtctggcagaaaatgatgtttttaacagaataatttcagtaaa ttgtgcgcccgatacagcgcaaaatttttcaatgacctttaatgaaaatgaagatattttatccaa aggggaattattattgtatgaagctatccaggatttcttaatcgaaaaatatagtaggttgggttt agtcatagaagcttgtccaacctcaaatatttatattggcagactggagaaatatcatgagcaccc attattccgttggaatcctcctgactcccaatggattaaacctggtgggaaatttaatcgctttgg attgcgcacaggacctttatctgtctgtataaatacagatgacagtgcattgatgccaaccacaat tgaaaacgaacatcgcttaatgagagactgcgccatacatttttatggtattggaacatggatggc ggatttatggataaactcaatacgcataaaaggtattgaaatattcaaaggtaatcatttaagtca ggatttagataatttaatctaaatgtaaacaagaaatccacgcaaatgcgtggattttaagtcaac ttattattctctgaaacggtttaaccgttcggaacaacagattaaatc (SEQ ID NO: 281) 29 10.B tgtggttagttatcacagcactaacctattttcgagctttttgattgaccaataccatttctttta 30 attatgaataatgatgcgtcaaccgatggcgaacgggccaaatccactcttctacaactgcccatt 31 gtcacggtgtggaataattaaaaattttagatttttgagattattctcattaccatcttgatttta tttggttttgcatcaaaattcatagttcacaagcttttctcactccaaaaacaactgtaaagggat tattgtgaacacgatatacataccattagacagcggagagtctgcggttcttaaggatccagatac cttacttccccgaaatatttacgaacagcttactcgatttattgaaaaggctgttaatgaagtacc gaagcctcacgaagcgcttaatgaaacccgtagccataaggctatatcgattgacggcgcaagggg gacaggaaaaacgtcggtgctagtgaatttgaacgactatctgcagagtaatgctcagcaactggc ggggaaaattcatatccttgatcctatcgatccgactctacttgaagatggtgagtcgctgttctt gcatattattgttgctgccgtgcttcatgataaagagatcaaaactgcccaaagcagagacctcga taagtccagagtgtttacccagaagcttgagaacttggcacacggactggagtccgttgatttgca acagaatcaacgtggaatggataaaattcgctccttatatggcagcaagcatctggcaaattgcgt tgaagagtttttaaaatctgcgttggagttgatcggaaagaaattattgatactaccgattgatga tgtggacacttcactaaaccgggcatttgaaaatctggaaatattgcgtcgttatcttacctctcc gtatgttttgccggtagtgagcggcgatcgccgtttatatgatgaggtctgctggcgagattttca tggaaggttgaataaggattcagcatataatcgcaagaacacatatgatattgctagagatttggc aattgagtatcagcgtaaaattctgccgctaccgcgcagactgagtatgcccgatgtaagtgatta ctggcagcaagatggtatcgaagttacgctagataaaaatggcattcctctgcgtaattttatggc atggttgaaaatatttattactggccccgtgaatggccttgagggtagtgatttacctctaccgat accttcaatacgtgctttaacccagttcatcaaccattgcagggatttaattcgtgagcttcctga accattcagaaagaaagtcagtacgctggccttacgtcgtatgtggcaaatgcctgatgttcctct tgatgttcttgaaagttttgctgaaaaacatcgggaattgagtaaagaagctaagcgtgaatatgg ggaggcttacaagctattttatgatggactaaagaattttactgcttgggatagtaaggcttatct agaagatgataaacaatctgcatggctcgataggttgtgtgagtattttcgttttgaacctaaggc tggggctgtgtttttaacgcttcaggcaaaacagttctgggtctcatgggcgcagggtgacaatcg taatcaatcgattcttgcgactccgctttttcaacccttattgcataattttcgtgaatacgatgt ctttgaaaggtatgatgatctttctgattgggaatctcagttaagaacaaggttaccggagagttg gttgactgccattaaagggcaaaaaacgcttttaccctatcctgtagcagaagcgggaattaatac cagtttaaagtggaggtattgggaagaattagagaactatgggtttgatcctgctttggaaagcaa ggcaaatttccttttgtccacgttgatgcagaggaatttttatacaaactctaaacagtcagtcgt gataaatattggtagagtttttgaaataattattgctagtcttgtttcggatttagagttggccga cttgcagagaattagacaacgttctccattttactctgctagcgcgcttgcacctaccaaaacgtt agatttggaagaggattttacgaaaaagaatacaagatttatgaataacagaagtgaaactgacag agacatttctgatgatattcttgttgatgtgccggataaaaatgaggacgcatggaaaaaaatttg tgatgaaataaaccattggagaaagacacacaatgtggctagtacaaacttatcaccttggctggt ttataaggtctttaataaaacatatagtcaggttgctaataatgtgtttgttcccagtggaatgca aaatgttgatgcggctctaaatgtttttggtagggttttttatgcagtttggtcagcatttggtag ttttgaaaaaggcgaattgttcggactatccgatgtggttgctacaactaatattatttcggcaaa aaatttttataatcatgataacttccgagtgaatgttggaccgtttacgcctgagcaaaaccaaaa ttctgacagcgatcgtgaggcatatcagcatcgcaaaatgtatggtgaaaaaaccagagcggtaag ttatgtattagcaactcatccgctgaaaaaatggatcgacgaggtattacgcactgagtttaaaca aaaacagaatgctcagattcagaccgagagaaaaatgccgattcaggctgagaaaattatagatat cagcccggcaagagagtttatcacaagaaaactttcattaaattcacactcccggttggttaaaac acgtataataaaacagcttaagatgttatatccaaactacgataaggctaaggacttcattgatga agttacaaaccacttccctcagaatgatcccgcaattaatacgcttcagaaagcatttgcagaact ttaccccgatggtgacaaataatgttaactcggtctctaagtgaacatgctgcagggtgttttttc actgatgagcgtctgtcacaacgctttctagatatccttttatcgccacccaaggattttgaaacg tggtcatcattgcaggaggaatctttcaagctgctcgttaagagcatcgatagccgatatccacgc acttaccggttaaccgacgtacgccagcttgtggggaacatatgtgacaacgggttactgacgagt ccgacactaccttggctcgatgtcattgcggatcagttactgttgcggaatggcgacttactctat taccgcgaaaataaggttcaagactacgtgcgaatagctgcggaactcgaccctgcccttctagtg ggatggcgtcttggcgactggcttttgcaaagcccaccgccgcgattgacggacataacccgtgtg gtgatggcgcagaatccgttttttgctccacctgctaatgcaggtaaaccttttgccgaggggcac gtacatctcgggggagtgacggctggagatactattttggatggctatctttttgaagagattgaa ctacccaaaagcaaagatatgttgttgtgggcgcacaaagagcatgatgagttaacaccgttgata aatcgagcaaagtctttgcttacagttctactttctgccccccctcaaacggtttctgagcaaact caaaatggttttgatcagcgtaaaactgtatctgagaagtacaaggcattacagaacccaatggat agcatccatcgtctcccagactggttattgcttgctaaaaagaatcgcggaactgaaagcgtcagc cccggctggtttttaaaccaactggcgcatgcctccgaaaaaaaacatccctcgcgctggctgtgg ctgcagctatacctttgccactcttatcagcttaaagacactcatccactggagcgcacggcaata ctctgtttttggcttacggtaaatgcgctacggcgtcacattattatggacggacaggggcttgcg tgttttaccgagcgttattttaatggtgctttacgtgcgggtaagaaagctgacagtagcaatatg cgctacctgtttgccggtaaagacgatgtggccgaagtgaaagcatccccaaaggctttcgatcat gagatggtcactggattttcctcgacattgctgaaaaccctcggcattccagctgtttttccaccg tatatttttggtgagcatgagattaagccagatgaacgcgtgctgcgctatattggagcactggag cgctggcagttttgtgggcacttttctcgctctaaaactgcaagtcgcggcaagcgagcaaaggct gatttgcaggctaactggacagaagcggagcgattgttacagaaactgtacagtcataatggctgg aatcatcccgtcttcttagggggtaaacgtaacccacattttcattttcagccgtcgaactggttt cgggggcttgatgttgcaggggatgaaaacgtactaaaaattgcaggctttgccccgatgctgcgc tggctacgaagtggattatatcccgtaccagaagggcttcgcgccagtatgagttttcatttcagt attcatgccggggaggattacgcacatccggcgtcaggattgcgtcatattgatgaaacggttcgc ttctgcgaaatgcgggagggagaccggctaggacatgctctggctctcggaattgaacctgcgctc tgggcgaaacggcatggtgaaatgatactacctctggatgaacatttagataatcttgtctggcag tggcactatgctacgcttttatcggcttcattgcctctcgctcaggcggtattaccgctgcttgag cgtagaattgcacgctttattgcacggtgcgaatggtgcaaaaagagacctccgcaaatagataac agtgtggtggggaaacaggcctgtagtgatgataaacctctggaaaatattacacctgatacgctc taccgggcctggctactgcggcgtaattgttcatatcgactccagcaactccacggcggttcccct ttgacctcgcaagagaaatgtgcgctgccggattgggccacgctcagcgataaaggcaatgtggcg gcgcagctttatcagcaaagacactcgagtctccttgacgatatgccgccgcaactggtagttgtg cgtgtagcggacgaatggggaactcaggagcttattggcttgggaaatcctggtaaactgcgtcag caggctcttgacggtaaagatatcctccaagacattgatacgccggtagagctgcaatttatgcat gctttacaggactatttgctagatcactatgatcgtaaagggttaattatagaaaccaacccaaca tcaaacgtatatatcgcgcgattcaaaaagcacgtagagcatcctatttttcgttggaatcctccg gatgaagaactgttgaaaccaggcgctgaatttaatcgttatggattgcgccgtgggccagtcagg gttctggtcaatactgacgatccagggattatgcctacgacattacggacggaatttttactactg cgagaggctgcgattgagcgtggtgtcagccgaacgatggcagaatattggctggaaaggctgcgc ctgtacgggctggaacagtttcagcgtaatcatttaaatgtatttgaagttattgaatagaggatt ttatcgtgagtggtacattcccttacttgcaatatacggatgtcaatgggctacaacctaagctca aagaagagttgaaaaatttacggagaaaagagtatttgtcctactggcctcgttttctgatacgta gaatttcgctttatgctcttccattcctcatgttcttcacttttttcttttgtctgagtctgacga agaaagttggggcagaggaagtgactaatattcttggaaccgtgagtatatccttcagtagttgcc tgctgctggggattattatttctggtgtcgtgttactcttgcagtggacgtgcttcaactgtaaat acagtccgcaggatacgaatggagttgttggggctcgtaagttaaattataaattacttgctcatg ttgtatttgttattgcatgcgtgcttttatttgtttttatttattgcaccaataataaagtgtttt atggttttatcgtgtttcttggtttgacattattaccattggtaattgaccgtaccttgggggtga ctcgtcaaaatgaacgtcacaaactctatatcagaaggttagagcgcctcgatgaattgaatattc tccgggagaaaatgaatattaaattcgaagaatcccatttcatcgagtatatgaagcttgttgatg aagctgatcacggaaaaaaccaggatacagtaagcgatacatcctattttatgacgttgatagaaa ataagctaaaagtgtaatcggttttaatatgatgctgtataaaaaactacgcaattgcgtggtttt ttgtcggactatgagggcaaggttgccctaaaacagaggttaaacgttgggatgtgatttattgca catcatgccgtgcccatccagtagaatccggttcgaaatgtgtataggattgtgtatatgtttctg ttcggtctcggattcttatacac (SEQ ID NO: 282) 32 11 ttttagaaatattgtgtaaaacttcttactctttactggtcatccctcagtcgtggaaaaaacaca ctgttccatataggttttatttgtgatataatgaacaagttcttatttaagaaacctataaacatt aagcgacggaaatatatcatgaaaatagtcagcaataccgtttgggatggacttaaactgcctgat tatagggctcgtttttttatagaagtttggaaggagattttgtacgtcaacactccttcattttat caatctaaaatgattaatacgatgtcaggtgccgaggagttagtcgaagccattgatgattacata caagatgataagagtaaaaaaagcttattatcaatgatagaagattacaaaggtaatttaaaaaaa gactctatagcaaaagacacttttaaaaacttgcatgcaacgctgttaaaaaaaattgagactgtt cctgacccaatatctagtaattatattttagaattaaaaacaattgttaaattagtattatccaaa gaaagtgactattatcacgaacttaaaaagcagctaaaatcatctattttgtctaacgctgatttg aataaaaaagcccgtttaatggactccatttatcaattaactaaaagctttattggctatctcctg tggaaggggtattcaccaacttatttatataatagaatggagtatcttacgagaattaaaaattat ggcagtagagacttttccgctcaatttaatagttgccttgataaattaactattaggattcatgat tatacagtttattttcttattacccctttgtctaaatatctgattgaattgaataatatccttgat gttagctttatcaatcgagaaggtattattaatgaaaaaaactacaataaaatttcacaaggggtt gaatcttcggtattagccaaaattgttgttaatacaacagactacgtttccgcggcgtggcaggca aatgaaaaactggataaagtcatagattatttagaaatagagaagccagaatataatattagatat tctcctgtatgtcttacagagttttcaaatggtagattcacacaccgtcagactataaacataggc agattgaaacaattcattacaagtaaaaattacagcattcttgaaaatatacctaatgagtccaag gtactcttacgagagtctataaaactagacagatatgatgtactgacaagatctttaaggtattta agagttgcaaaagaatcaacttcacttgagcaaaaattgctgggcgtatggatagctcttgaatgt attttcgagagcacatcaggtaatatcatttctggaataactaaccatatccctacgttctatagc actcaaagtctagaaattagaattagatattctaaagatttattagaagcccgattgaagcctatt tcagatagccttttagagattacagccaatcagaaatctaaatttcgagacctttctttaaaagaa tactttgacatagtgaaaatcgaaaaaaacaggaataaaattttcgatgagttagtttccaagggg gatgagtttgccgtttttcgactaataaaaatatttgaatcattcggaacgtcaaagaaaataaat gatagatttaatgatactaaaaaggatgttgagtctcagctttatagaatttacaaggtaagaaat aaaataacccatagagcatactacggaaatattaggccccaattagtggatcatctttatagctat ttactaagtgcatatagcacactaatttatagtttaagatataatgcaataaataaatttgaacca caagatatgtttaatgcatatattatctcgtgcgagagtttaatattcaatgttgaagaagaaaaa aaacttgaaaatataactatggatgaaataattttatcatagtgaatgttttctaggtgtcgtatt c (SEQ ID NO: 283) 33 12 atggtagcgataaaaatgtatccggcaaaggatggggatgcttttcttattatttgcgatgaggaa 34 aaaagtgcatttctgattgacggaggctacgcggaaacgttcaggcaacatattttgcctgactta 35 cgtgagctgagttttaacggttaccggttacgtctggtcatggcaacacatattgattcagatcac attggtggtctcgtggacttctttcttgtaaatggacacgcagcagagcctgcagtgattactgtt gaccgcgtatggcacaacagcctcagggcgatgacgagacccgaaaataatgcacaaaaagtggat tcccgagaaatcactgactttttgagacggagatatcatgtcgaagccgataaagccaaaccgcat gaaatcagcgcgcgtcaggggagttcactggctgccagccttctggctggcgattatcattggaat gagggaaaagggtatcagtgtatctgcaccggtacctccattcccaacttgatgtgcgataacagt ctaacaattctgagcccctctaaggagagaatttcagcgctctgcctgtggtggcgcagacaactt gcatcgctgggcttttcgggacggtcctcctcgagtgaggcatttgatgatgctttcgaatttttt tgtaaaagggaagcatctcaggttcctcttccgcatgtcatcaatgcaagaacaccgttgcttgag agggattatgcacgggatacctcgccaacaaatggcagttcgatagcgttcagtctggtgctcaat aagaagagaatattgatgctaggagatgcctgggcggaagaagttgtgacatctctgggtgccagt ggggcgtcccatcattttgatatcattaaaatctcacatcacggtagtattagaaacacaagcccg aatcttttaaagatcatagatgctcctgtgtacctgatctcaaccgacggaaaaaagcatgccaga caccctaacctggcggttctgaaagcgattgtggacagacctgcggcgtttacgcgaacgctctat tttaactatgccaacagcgcatctgcttttatgaaaaattacctttctgcaagtggtgcacaattc agaatcattgaaggatcaacggattggataacactgtgagatatgctgctactgaaactgaaataa ggaacgcaactgtactcattgaatgcgcgggttacactggttccggaaccctgatcgcagcagaca aggtccttacggctgcacattgtgtagtatcggatgatcctgagacaccaattacagtgacatttt ttggtgcggatgaagacgtctgtgtcaatgcgacaatttcagaaatagatacatcgtgcgatgcct gtctgctaacactttctgactctgtcgacattccgcctattacacttatgacacagccggagcgag agggaagccaatggaaagcctttggctatccggcatcacgcaatgggccatcacattatcttcatg gcactataagtcagattttaccaaggcttttccatggcgttgatatggatttgtcggtcagtgccg attgtgttctggaagagtacagtggagtttctggtgccgccattctatcagaaaataaatgcattg cgatggtgcgcatcaggatggatggtggactaggtgcagtaagtcttgataagttaagcggtttgc tgattcgaaacggcctcatcccagatgacattgcatccctgccagattcatcactgtcgggtgaag ttgtcctgaaccgcacagaatttcgcgacaactttgaatcgttcgtcctggagcacaagggacgtg cagtgcttttggaaggtagtcccggctctggtaagactaccttctgccgccattatcagccccgta gtgagcaactcgcagtggcgggtgtctatgaatttacaccggaagacggtgctggtacgacattca aaattcttcctgaggtatttgccgattggctgcataaccaggtttctatactgctttcaggtaggc ctgctcgcagggaggaaacagaaaagatcaatctgacccaaaaggtgtctgaccttctacatactt tctcagattactggaagcacaaaggaaaatatggcgtcattttcattgatgctgtgaatgaggcaa gcgagtgcggggatgaggcagtatcgcgctttacagcattactgccggtgacacttccggagaacg tcaaacttgttttcaccgcaccatcattatcatcagctggtaaggctttccggcactggctcacac ctcaggattgtatcagcctaacgcttttaagccatagggaggtgttacagctaacagctcgagagc ttaaaacttccgccccttctttgtcactactcacacgagttagtgatatagctcagggccatccac tttatctccgatacattcttgggtatctgaaagcgaatccggatcaggttaatctggagatattcc cggttttcagtggcagcattgaaacctactacgaaaggctctggcaggggctggttaaggatgaga gcgctgtaaatctgctcggtattctctcgcggatgcgctggggcattgatatttcatcactgatcc ctgttctaacaccgcaggaacagacggtgtttgttccaacccttgaccgtattcagcatctgcttc ttaatgataaatcatcagcattgtgccaccaatcatttgcggcgtttatcaacagtaaaacggcgg taattaactcgctgctgcacggacgccttgccgacttctgccttaccagtggagagagttatggcc tgattaatcgcgcttatcacctgctcctagcctctcacgacagacatcctgaagccgcattggtgt gcacgcaggaatgggctgacgcctgtatcgtcaagggggctcagccggatattctaattcacgata tccgtcagaccctgaagaacacgcttattcgtgccgatgcagtggcatcgattcgtctgttgctgc ttttccaacgcatgaccttcagacaccattttttgtttctgcagtcagcttatcactcaggccttg ccctggctgcacttggcagaccggatgaggcccttgagcagctcataccatctggaagcctcgttg ttgatgcagttgatgcaattgtcagcgcacagactctcgcgcgtatgggaaacagtgaacacgcgc tgaagctattggaaaaggtgaagtcagctgtcgaccaagaatttgaacgcaatcccgtcaatctat ctgattttatcggcctttccctggcttgggtgagagctgagctgatggctggggtggttgatggcc acggacgcacacgcgaggttgttgagtatttgtacggttgtgggcaagtcgttcgcgataattttg aacaatcagcgcatagtaaatcagcatatacacgcgctttttatcctcttcaggcagaaatggaag ccgtgaacatagcctttaatgaccgctccgtatctttacggacggttaaagaaaagtttggtagct taccggaaaatattcttgatctgatgctcagttcagttatgcgggcacatgacatcattctgcaac atcagttgccgatgccccagcatgctttgcaacccgtttggtacaatctggacagattacttcata ctgatattccgtattcgaacgaaattcgttttaattcattaagtagccttatttttttcaatgcgc cttctgctcttattatcaggatggcgggggtattttctttcgaagtagtacccgaaataacgttgc tcaatgaagaaaatgagatagcagcagacagcattgacgttagtgaacagggacaactctggctgg tgagcgcctaccttaatgaaacgcaaccctgtcccgatattaaacatccgagtcagggatgttctg aatggctcaagacattgactgaggctattttttggtacagcgggcaggcgcgccgggcagttattg acggcaacgatgagaaaaaagaactgcttttagtcaaggtgcagaatgatattctccctgctcttt cgtactcgctggaagagcgcatggcatggccgaattcatgggcaatgcctgaacagattatcccca tgatttacgaagagttagtaaacatgttcggcgcatgctggcccgataagatatcagtgatcactg atttcattctggctcatacgcctcagcaatgtggactttattccgaggggtacaggcgtttactga acagagttattcagactcttctaaatgagcatcggtttttggggcaatctgatacgacatttcaac tacttgagacgttgcatgcgtttgtttctgcttttactgagaatcggcaggagctggttcctgaat tactgaatattattccagcttatattagccttgatgctcctcagctggcacaggacacttacactg agcttttaggtgtgtcgatgggccctgactggtacaaagaagaccaatttgccctcatgacaacta tgctgcgcgtgataccacagcatacagacacaaatactacactttcacaagttgcaggattccttg aacatgcttcgggtgaaatgacatttaggcgttatgttaggcaggaaaaatcacagtttattggcg aacttattcgtcgtgggaattatgcacacgggtttaactattatcgtcagcagtcctgcggatccc atgaggaaatgctcacccaacttagccacccagctgcagatagccctcatccattgaaaggcatgc ggttcccggggggagcgctggatgaggaacatgctgtagaatgcattgtcagtgaactgcgaaaca gagtcgactggcggcttcgctggggacttcttgaaatattcagctttggcagtattggtaatcttg cagtgccctttgctgaacttatcaatgaattttctgcagacactgaagaccttaatgaaataccca aaaggttgcacaacattttacatggtgatgtgcctttctcagaacacagaaattttatcaaaaatt tcacagagcaccttgcagacaaccataagccactctttgctgaatttatcagtttgctatccgaag acactagcgataacgacgttaagcctcccccctctggtgatgctaaccagaagggtactgatacct cagatgatgtggcaatgcagccaggactttttgggaagcgttctgcgatcaatagggctgaagcct gcatggaaaatgcccgaaaagccgcagcacgcagaaacacagttcgtgcaagtgagttagccgttg aaagcctgcatataattcaggatggtgactggtcagtctggagaaagaacaaccatctggcggaac ttacacggacgtacatattggacaactctgcggatgcaggttcggtcattcgtgcttatgcttcgc ttgtagaaaaagaacgttatgccccggcatgggtaattgctagtcatctcatcgaaatagcagcca gtaaattctctgatcaagaagcccaagctattaaccagatcgtacttgaacacaaccgccacatgc ttgggaataccgaagcggatgctgcgcatttttcttttcttaatgaacctgatacctcagatgcag gtgaagaaacactctattttctgttttggctgctggaacacccactgaaattcagacgcgaacggg ctctggaagtactgaagtggcttgcatcagacgatgataagattctgggccaatgcgtgacggagg cactcgtttcagacattgcctcacgagctgaagcactaatggcattgacagactgggtgtcagcta gatctcctcagcgaatatgggactttatagttaaagagcgcagcctttttgaatggcttgaaggca ctactgcactaagccaagtccatctcctggagcgagtaaccagcagagcgggatttgttttaagaa atgagattgccgcatttgagcgaccccgaaagcttttactgacatcagaagcctctggacaacgga atattccagaaaatttaccaacatgggtgcaatccttgtcgcagacccttgccgtgatggaaaagc agggaatagatatcccagctttgcttaccttactcgaaaaacgggttttacagcagagtggattgg ctgatatcacggtggcttttgagctggaaaagttacttgcgcgtggttttactgtgaatagaacac caagtcaccatcgctgggagacgatggtgcgatttgcattaaaccagatcatacatgaggcggccg cacaggatgaactgcaaaacattgaacccttgctacgtgcctggaaccccgcgtcagaggagtgtg ttgagccgtgggaggtttgtaaccgggcaaaacagattatctgcgctgttatggaaggtagacatc agcaagcttcgggcatagaggatggctttttcttgcattatcttgatgaagtggaggtttcccgag aaggtcaaacgcatctggtggaaatctcagcggtgttaacgacagctcataatggtcatgagagcc ttagaccaggtgcagaaagcgaatttaatgcaacacagacacctgatatagagcggacgcttagtg tgcaccttacatgccagcgagtcaaaatgcagcctttgctttttgggggagctacgcctgccgcag tgtcgaaaaagtttatgcagatgactggaacgttgccttcagactttattcgcaggcaatggcgaa gcgggcgttctcttagtaaaaacagatggggggaaccaataagcagaggaagtctgttactcatga aaagaacaactaccctccctccaggactgggcttagcgtggtatgtcactgtcgatgggaagttga tgaatatattttcatatgccccgaggaggagataatgaaatacagttcaatggaaacgccaaaaac gcgagaggaatttgaggctcgctgttttcacctgctcaatgcgatcaagttaggacggtatcatgg cattccgggtgaaggtaacaaagagcaggttccttttctccctaacggacgagttgatctggcaaa cattgataccatgactcgcctctcgatgaactcgttatatgatttccactataacagggataatta tccgcagtttgatctctctgaaaatgacgagaatgaagaggctacggattga (SEQ ID NO: 284) 36 13 gggatttccaccacctcccaccgaccatctaagactttatgccactgtccctaggactgctatgta ctaggagcggatgttaaactcagactcgtttcagctacattgcgttttgaataatattccatcata ataactctttgaaaaatgtgatcttttcatttataacactgatgacttgcttatctcattgggata tcggaggagaatacttaactatgacaagcccgattattatgacactggctatattatatagattga tattaaaatgtaggattaggttcttgccaaggtgtcaagatttacagataggtttaaaaccatata aatatgttttacggtgagatacaatacatattgtaaggcataaacgcttggtaaaattttaattat tggaagaagctaatcatggaacccatatcaattacagtggcaacttatgtagcaactaaacttatt gatcaattcatctctcaagaaggatatggttgtattaagaaagcattattcccccaaaaaagatat gtggatagattatatcaactaattgaagagacggcaattgagtttgaagaaacatatccagtagaa agtggagcaataccattttatcattccgaaccattgtttgagatgttgaatgagcacatctttttt aaagagttccctgacaaagagatattattagacaagttcaaagaatatccaagtatcactccccca actcaacaacaactcagccttttttatgagatgttatcattaaaaatcaataattgttcgaagtta aaaaagctacatatcgaagaaacgtataaagaaaaaatattcgatattaatgaagagctcattcaa gtcaaacttattttacggtctatagatgagaaactaacttttcacttaagtgatgattggttaaat gaaaaaaatagtcaagcaatagctgacttgggaggtcgatacacacccgaactcaacgtaaagcta gaaatagcagagatatttgatggcctcggtagaactaatgatttttctaaaatattttattcgcat atagatagctttctggtcgctggaaagaaattacatagttgcgatgtaatttcctcagaattattt gaaataaaccagtccttaaaagaaatttctgatatatatcaggagattaatttttctaaattagat gaaatccctataaataaatttaataactatgtttctagctgccagacagctattggcggagcggta tcaatattgtgggaactccgagaaaagtcagagcaagtaggtgaaaccaagcattacagtgataag tattcatctactctgcgaatgcttcgggaatttgactatgcgtgcaatgaattacgtatattcatt aattcaacaacagtgaagttggctaacaacccattcttacttctcgaaggaaaagcaggaattggt aagtctcatttactggctgatgtgattaaaaatcgaattgcttctgggtatccttcactactcata ctagggcaacaacttacttcagatgaatctccatggtcacaaatcttcaagagattacagcttaaa atcacttctcgtgaattcctagaaaaactgaatttatatggcaaaaaaacaggaaaaagagtctta gtttttattgatgctattaatgaaggtaatggaaataaattctggaatgacaatattaacagtttt gtcgatgaaatcagatgctttgaatggcttggtctgataatgtcagtcagaacaacatatagaaat gtaacaatttcacatgagaatgttgtgcgaaataattttgaaattcatgaacatattggattccag aacgttgagttggaagcggttagtctattttatgattattacaatattgagaggccttcatctcct aaccttaatccagagtttaaaaatcctctatttcttaagttattgtgtgaaggcattaagaaaaat ggtttaaccaaagtgcctgttggatttaatgggatttcaaatatttttaactttttagttgaaggg gtaaataaatcattagcatcgccaaaaaaatatgcattcgatcccagttttcctcttgttaaagat gctctcaatgaaatcataaaattcaaattagagattggtcgtaatagtatttcacttaaagatgct cactcagtggttcaatctgtagttaatgattatgttgctgataaaaccttcctcagcgccttgatt gacgaaggattattgactaaaggcatagtgagaaatgatgataattctactgaggaagtagtttat gtggcttttgaaaggtttgatgatcatttaactgttaattttttattaaatgatgttgaaaatatc gaaagtgaatttaagcctgatggtcgtctgaaaaaatattttcatgatgaatgtgatttttatata aaatcgggaatagtagaggcgttgtctattcaattgccagaaaggtatgaaaaagagctttatgaa tttctgccggagttcagcaataatcttaaattactagaagcctttattgatagcttgatatggcgc gatattaaggctattgatttcgaaaaaattagacctttcatcaatgaacatgtttttaaatttaaa gatagttttgatcatttcctcgaggcagtgatctctatttcaggtttagttggccatccctttaat gctaatttcttgcatgattggctaaaagattattctttggcaaatcgagattcgttttggactaca gaacttaaatataaatatagtgaagactcagcatttaggcatctaatcgattgggcatgggccaga acagataaaagctttgtttcggatgagtcaatcgagctagttgcaactagtttatgctggttttta acttctagtaaccgagaacttcgagattgctcaactaaggctttagtgagtttactcgagccaaga attcctgtattgagaaaaataattgataagttttatggtgtaaatgatccttacgtttgggaaaga atatttgcagttgcattaggctgtacattgcgaactgataatattaaagaactaaaatatttagcc gaaactgtttaccaaaaggtattttgttctaagtatgtgtatccaaatatattacttagagattat gctagagagattattgaatttgctaatcatcttggattggaacttgaaagcattgaattatccaag actagaccaccctacaacagcatttggcctgacaagattccttcaaaagaggaactagagtccctt tatgataaagaaccttatcgggaactctggagctctattatggaagatggtgacttttcacgatat actattggaacaaattataatcattctgattggtctggttgcaagtttaatgaaacccctgttgac cgtaagcaagtttttaaaactttcaaatgtaaactaactgatcaacaaaaagacttgtatgatgcc acagatcctttcatttatgatgataaatgcgaaggaattaaatttggtcgtgtggtcggtagaaaa gcacaggaagaaataaaggcgagcaagaaattatttaagaattcattgtcatacgatctgttaagt gagtttgaaaatgaaatagagccatacctggatcataataataatctgctggaaactgataaacac tttgatcttcgactagctcaacaatttatattcaatcgtgttatagagcttggttgggatccggag aagcatggtaattttgaccaacaaataggaactggacgtggacgtagagaggcattccaagaacgg attggtaaaaaataccaatggattgcttattatgaatacatggcaaggctagccgataattttact cgttttgaaggttatggtgacgaacgaaaggaaaatccataccaagggccatgggagccttacgta agagatatagatcccactatcttacttaaagaaactggaacgaaaaaaataagcaataaagaaatg tggtggcttaatgatgaagtgtttgattggacttgctctaatgaagactgggttaaaagttctact actataactaattcatatgcttttattgaagttaaagatgataatggtgatgaatggatagtatta gaaagtcatccatcatggaaagaaccaaaaattattggaaacgatgattgggggcacccacgaaaa gaggtttggtatcagatcagaagttatatcgttaaagttgaagaatttgaaaattttagatgttgg gcaatagctcaagactttatgggcaggtggatgccggaatgtactgatagataccaattatttaat agggagtactattggtccgaagcatttaagtcttttaaatcagattattatggtggatctgactgg acttcggtaacagaccgggagtctggagctaagatagctgatgttagtgtcacttcgattaattat ttgtgggaagaggagttcgacaaatcaaaaatagaaactttgaattttttgaagcctagtaactta atctttgaaaagatgggattaaaaagtggggaagtagagggtagcttcaatgatgaaaatggaact atggtttgctttgcagctgaagctgtatatgcttcaaagccgcatctacttgttaaaaaagaacca tttttaacaatgttaagggacaatggttttgaaatcgtttggacattattaggtgaaaagggcgtt atagggggctcactcatatcaagtcatcattatggtcgacaggagtttagtggagcattttattat gaagacagtcagctaacaggaagtcataaaactagctttacgagataaaaatgaatctcagagctg aatatataagtagtattagaaaccgggttatacttaagaaatcaatcttaagtgtggcagtcgaat ggtagctaatatgctagcggcgctaatgcctgtttgttgctcataacaggcattcactttagttat ggcagaaaagtatacatgctgggttgggaaagtgtgaaagaaaggaagattgctgcgccgtttgtc gtcacgtttatcttcattggctatgca (SEQ ID NO: 285) 37 14 acaattttttgccataagacgctttcctgaaactcttctcattctcagcaggaaagcgttctcttc 38 tcaatactctctggttatagagtattaaaaaataaggagttataatccttgtagcccaactgacat aaggacgatgctcaatgtctgacagcctgcttgttcgcaccagtagagatggcgatcagtttcatt atctttgggcggctcgccgcgcccttcgactactggaacctcagtcaactcttgttgccctgacca ttgaaggggcatcaacgacggaaatgggctctcagccagtggttgaggatggggaggagctgattg atattgctgaatattacggcagtaacgagctcgcaacagcaacaactgttcgttatatgcagctaa agcattcaacaatgcactcagatactccatttccccctagtgggttacaaaaaaccatcgaaggtt ttgcaacccgttataaggcacttatacaaaaaataccggtagaaacgttacgcactaaactcgagt tctggtttgtgacgaaccgtccagtcagtagcagcttcagtgaagcgatcaatgatgccgcgaacc aacacgttacacgccatccacatgatctggcgaaacttgagaaatttaccgggcttcaaggcgctg agttatcgatattctgccagcttttacatatagaaggtcagcaggacgatttatggagtcagcgga atatcctgctaagagaatcagcgggatatctccccgacctggatactgaagcccctctgaaattaa aagagctggttaacagaaaagcgttaaccgaaagcgccgcaaatccttccattaccagaatggatg tgttgcgtgctttgggggtggatgaaacagatctttttcctgcgccctgtcgtattgaaagaatag aaaattccgtctcaagaactcaagaggcgacgctggttcaacgtgttgttgaagcattcggcgcac ctgtgatcatccatgccgatgccggtgtggggaaatcaattttctctactcatatagaggagcatc ttcccactggttctgttagcatcttatatgactgtttcggactgggtcagtaccgtaacgcgtctt cctaccgccaccaccatcgtacagcattggttcagatggctaatgaaatggcatctcgtggtctct gtcatccattgatcccaaatgctggtactggcatatcccagtatatgcgtgcgtttctgcatcgcc tttctcagagcatttcaatactccgggcctctgagcccttggccgtattgtgtattattattgatg ctgcggacaatgcacagatggcggcggaagaaatcggtgaaacgcgttcttttatcaaagatttaa ttagagaaaagcttcctgatggagtctgccttgttgcactttgccgaccttatagacgggaattac ttgatccacctcctgaagcactcacattatccctacaaacttttaatcgcgatgagacagccgctc atcttcaccaaaaatttccagatgccagcgaaagtgatgttgacgagttccatcgtctaagctctt gcaacccccgggttcaggctctgtcattatcacaaaatcttccactgaacgacacattgagacttt tggggccaaatcccaaaacggtagaagatactattggtgaagtgctggaaaaatccattgctcgct tacgtgatacagccggaatatctgaacgtgctcaaattgatacgatttgttccgcactggcaatat tgcgtccattaattccattatctgtgctatctgccatttccggagtagctggttctgctattaaaa gtttcgcacttgatctgggacgcccgttaatcgttagtggcgagactattcagttctttgatgaac cggccgaaacatggtttcagaggcgctttaggccatcggccgctgatctgcatcagtttattacta aactgagaccactaacaaaagatagttcctatgcagcatcagttttacctgcattgatgctggaag gaaaccagctttctgaactgatcgagctagcgatatcctcacaagctctgcctgaaaccagcgcgg ttgaacgcagggacatagaacttcaaagattacagtttgcgttaaaagcagccttacgcacaggtc gataccaggatgcggctaaactggcactgaaagctggtggagaatgcgcgggtgacaacaggcaaa gagtcctgctgagggacaatatcgatctggcagcaaaatttgtgggaagcaacggcgttcaggaac tggtttcccgtaacgcatttccagatactggctggcctggctccagaaatgcttattatgccgcaa tactttccgaatatcctgaactctcaggagaggcccgcagtcgccttcgactcaccatggagtggt taacaaactggagtcaattaccagatgatgagcggagcaggcaaaatgttaccgatcaggacagag cggtaatgctcattgcctgcctgaatattcatggcgcggaagcggcagcaagggagctcagaaggt ggcggcctcgaaaactatcttttgacgctggaaaaattgttgccatgcagttactggcccacgccc gttatgatgaacttgatcagttggctattgcggctggaaacgatatcagcctggttatgggaattg tactggaagcaagaaaacttcaccgtccagtcgctgaacaagcaatcagaagaacctggcgcttgt taaaaagtcagcgagtcagcattaaagacagaaaccacgctaataaccagacaatagcagcaatca ctggcatggttgaaatggcgcttatccaatctgtttgtactgaatcagaaagcatccagttgttgg atcgttatttaccaaaggttcccccctatgctctgacttctgagtatagtaaagaaagagttgctt acgtccgggcatatgctctgcaggcaaacctgatgggctctcaattagcgcttagcgatttagcct ccacagaggttaaaaaagaacttatggctgaaaaacgccacggcgaatctgatgacctgcgtcaac tgaagcagtacagcggagtattaatcccttggtataatttatgggccaaagtaattcttggtaaaa caaggaaagcagacttagaaagtgagctaagtgatactcaaaaagaatcgacggctattaaaggtc attcttactctgagcattcattatcatcaaatgagatcgcaaatgtatggtttgatattctgatcg aagcaggtaatgtatcaaaagacgatgtggaaaacatcatcaaatggagtcagcataaagggaata gagtattcacaccaacgcttcaccgtttcagttctgtatgtgcagagatttcagggcttggagagc tttcatatcacttcgcagaacttgccttatctttatggagggatgagcactctgatgctcagatca aagctgacggctatatagacctttcccgttcactcatttcacttgatgaaccagaagctaaagaat actttaaccaagcgattgaagttacaaataagttaggcgatgaaaatttaagtcgatgggaagcga tacttgatcttgctgaatatgttgctggtaaaacgcaagtccctcctgaaatttcctataaactag cccgatgtgcggaactaaccagagaatatgttgatcgtgataaacattttgcatggagtgatactg ttgagattttggctgagttatgtccatcttcagccctagcaataataagtcgttggcgtgaccgta catttggcaatcatagaagcatactggcatggaccattgagcatcttgtaaagaaaaataaaatta atgcactcgatgcacttcctttaatcacatttgagaatgattggcataaatgcgacttgcttgatt cagttttatcctcgtgtactgatgacaaagataagatcatggcattcgaagtggtttaccactata caaaatttaacgtacaaaatatccaaaatcttaaaaagctggatgctatttctacatcattaggta ttgaacacacagaactgaaagaaagaatttcaggtctacaacatactgagacggtttcaaaaaaat ccagtctctcatcgaatgataatgagcaaggccatgaccaggaatgggagtccatttttaaagatt gtgatttatcgtctattgatggtattagtgcagcatacgaaaaatttcgtaatgttcctgaattct attccaaagaaaccttcatcaagaaagcaataagccgagttaagacgggcaaagaatgtagtttca ttactgccattggtgctatatttcactgggggctttatgattttaaatatattcttgaatctatac ccgacgaatggacatctcgtttaagcattaaaaccaccctggcaggtttaataaaagaatattgcc aacgcttctgtatgcgaatcagaaaaagtcgcgtttacgagatttttcccttcagtctggccagca ggctttctggtataagtgaaaaagagattttcggtattaccctggaggccattgcagaatcgccag agcccgcaaactctgaccgtttatttagccttcctggccttcttgttagtaaactggagagtaatg aagcgttagatgtattatcttatgccttggatttattcgacgaggtgctaaaagatgaggatggtg acggcccatggaacgagaaattatctccgccaactcatgtagaggattcacttgcaggctatattt gggcgcggctgggttctccggaggcggaaatgcgctggcaggcagcacatgcggttctggcactat gtcgaatgagtcgtacatgcgttatacaaggaattttccagcacgcaataaatgctaccactttac ctttttgtgatcgcaatctgcccttttataccctccatgctcaattgtggttgatgatcgctgctg caagggttgcgctggatgatggaaaatcgctgattcccaatattggttatttctaccattatgcca ctactgatcagccacatgtattaatccgtcattttgctgccagaactttacttgcactgcatgata gcgacctgatctctatcccagcacaagaagagaataaactccgaaatataaaccagtctacgactc tccctgtgcttgataaggttgaagatcatagaggtgaagattcatatacttttggtatcgactttg gcccttactggctaaaacctctgggacgttgtttcggtgtatctcaaaaacagttagaacctgaaa tgcttcgcattattcgtgatgttcttggttttaaaggtagccgcaactgggatgaggatgagcgta ataaacgacgctattatcaagacagagataatcatcacagtcatggttcctatccacgggtcgatg actaccatttttacttgtcataccatgcaatgtttatgaccgctgggcagttattagcgacaaaac cattagttggtagtgactacgacgatgtcgaggatgttttccaggactggttaagaagacatgata tttctcggaacgatcatcgctggctcgccgatcggagagatattccccccaaagagcgctccagtt ggcttaatagcagttctgacaatagggatgaatggctagcgtcaatctctgaaaatgtatttaacg aaacactatgtcccagccccggactattaacgctatggggacgttggtctgacgtttgttcagatc gaaaagaatctattattgtccattctgcgttagtatcgccggagcgatctttatcgctcctcagag cattacaaacaactaaaaatgtatatgactataaaatccctgatgctggagataatcttgaaatag atcacgcacactatcagctaaaaggatggattaaagatattgctgaatactgtggaattgatgagt ttgatccctgggcaggtaatgtaaggtttccaatcccagaaccagcctcatttatcattgatgcga tgaaattaactactgataaagatcatcgggtatggtattcaccttctgatgttgaaccggcgatga tttccagtatctggggccatctatcaggtaaaaatgatgaggaaaaatcacatggttataggctat gtgcttcaatacacttcataaaatcagcattagaaacattcaacatggatctcattttagaggttg atgttgatcgctattcacggaacagcagatatgaacggaataatgaaaatgagctcgacaatatcc cttcaagcactcgactcttcctcttccgacatgacggaaccatccacacgctatacggcaattata gaaatggggaaaaaactagttgatgagcttgagctaaatgactctgttgatacattaagcagatgg atggctcatcatatcgcagagctcatttatgatgctgaacattgtacagacgacatcgtccgtaca gctaaacaagcggagattagggactctatctggtcattctggtctaacagatacgaattgccaatt ggtagcagaccatttcaggagctcgaacctattctaagaaccttaaaaggtcttgatcctgaaaat gagcaaccgagatttttttcaccttaccgagatctaattaatgtagaaaaagaaaccagtgaggtc caaaaatggctaaccgccgctaaggatattgattcagcagcaaaaatactgattgattactgttta tcgttagcagcagaaaatgctatcgataaatcccaagaatgggtggaattagcacagaaagctgga ttgaacaaagatgttgatctgcttgaaattcgtatctttcagttacgaggtaccccagccaataca gacaatcccaataatgcacaacggagaatactggaaaaaaggcaaaaaaggcttgaagcttttctc ttattgggctcccagttaaacgaacaactcaaatctcagcttgaagccttaccagcaattgaggat gagccaacggatgacgacgaagacttttgatatgacttgctttagcactggagacggctcacaaga cggaccacataatagcctaacccaagacttttctactagtcctaatg (SEQ ID NO: 286) 39 15 gcgcagctgacaaagattgaccgtgagcgctctgatggagaaagacgatagttgctgagtacgata tcgagggtacatttctctgtgtaggggtagttatttacaaaaaaataggagaataattaaatggtc aaaccaaactgggataactttaaagctaaatttagtgagaatcctcaaggtaattttgagtggttt tgctacttgttgttctgtcaagaattcaaaatgcccgcaggtatatttagatataagaatcaatct ggtatcgaaactaatccaataaccaaagataatgaaattatcggttggcaatctaaattctatgac acaaaattgtcggataacaaagctgatcttatagaaatgattgagaaaagcaaaaaggcttatcca ggattaagtaaaatcattttctatactaatcaagagtgggggcaggggagaaagtcccatgaacct gaaggcgataagaacgctgataattatttggaaactgtcggaaatagtaacgatcccaaaataaaa attgaagttgatcagaaagcatatgagtcgggtatcgaaatagtatggagagttgctagttttttt gaatcaccgtttgtaatagttgagaatgaaaagattgctaaacatttcttctcccttaatgaaagc atctttgatttattagaagaaaagcgcaagcacacagaaaatgttttatatgaaattcaaaccaat atagagttcaaagacagaagtattgaaattgacagacgacattgcatagaacttctacatgagaat ctagttcagaaaaaaattgtcatcgtcagcggagaaggtggggttggaaaaacagcagttatcaaa aaaatttatgaagcagaaaaacaatacactcctttctatgtctttaaggctagcgagtttaaaaag gacagcattaatgagttattcggtgcgcatggcttagacgatttctctaatgctcatcaagacgaa ttacgtaaagtcatagtcgtagattctgctgaaaagcttttagaactgaccaatatcgatcctttt aaagaattcctgactgttttaataaaggataaatggcaggttgttttcacaacccgtaacaattac ttggcagatctgaactatgctttcatagatatttataagataactcctggaaacttagtaataaag aaccttgaacgcggcgagctaatagagttatctgataacaatggatttagccttcctcaagatgtt cgattattagaactaatcaaaaatccattttatctaagtgaatatttgaggttctataccggtgaa agcatcgattatgtgagcttcaaagaaaagctatggaataagattatcgtcaaaaataaaccttct cgggagcagtgtttcttagcgactgcttttcagcgggctagtgagggccaattttttgtctccccg gcatgtgatactggaattttagatgagttagttaaagacggaattgtcggctatgaagctgctggt tacttcattacacatgatatatacgaggaatgggcattagaaaagaaaatttctgtcgattatatc cgtaaagcgaacaataacgagttcttcgaaaaaataggagaatcacttcctgttcgccgtagtttt cggaattggatatctgaacgattgcttttagatgaccagtccataaagccttttatcgcagaaata gtctgtggagaaggaatatcaaatttttggaaagacgagttatgggtagctgtccttctttccgac aattcaagcatattttttaattactttaaaagatatttacttagtagtgaccagaatctattaaaa agacttactttcttattgaggcttgcttgcaaggacgttgattacgatctgcttaaacagttaggt gtaagtaattcagatctgctttccattaaatatgttcttactaagcctaagggaactggttggcag agtgtgatccaatttatctatgaaaatttagatgaaatagggatcagaaatattaattttatactt cctgtgattcaggagtggaatcaaagaaacaaagtgggtgaaacgactcgattatctagtttgata gctctaaaatattatcaatggactatagatgaggatgtctatttatccggaagggataatgagaaa aatattctgcatacgattcttcatggggcggccatgattaaacctgaaatggaagaggttttagtt aaggttcttaaaaataggtggaaagagcatggtaccccatatttcgaccttatgaccttaatcctt actgacttagattcatatccggtttgggcatctctcccggaatatgttctacaattggcagatctg ttctggtatcggccacttaaagaaacaggcgaacgttatcacagtatggatattgaagatgagttc ggtctatttaggtctcatcacgactattatccagaaagtccatatcagactcctatatattggtta ctacaatcacagttcaaaaaaacaatagactttattcttgattttacgaacaagacaacgatatgt tttgcccactcccattttgctaaaaacgaaattgaagaagtagatgtctttattgaagaaggaaag tttataaagcaatatatatgcaatcgtctgtggtgctcataccgaggaacacaggtctctacctac ttactttcatcaattcatatggcattggaaaagttttttcttgagaattttaaaaatgcagactcg aaagtgttggaaagttggcttcttttcttgttaagaaataccaagtcagcttctatttctgcagta gttacgagtattgtacttgcattccctgagaagacattcaatgtagctaaagtactattccaaaca aaggacttcttccgttttgatatgaatcgaatggttctagacagaacacataaaagttcattaatc tccctcagggatggctttggcggtacagattacagaaactctttgcacgaagaagatagaattaaa gcttgcgatgatgtgcatagaaatacttatcttgaaaatcttgccttgcattatcaaattttcagg agtgaaaatgtaacggagaaagatgccattgaaaggcaacaagtgctctgggatattttcgacaaa tactataatcagcttccagatgaagctcaagaaactgaagccgataagacgtggaggctctgcttg gcaagaatggatcggcgaaagatgaaaataactaccaaggagaaagatgaagggattgagatatca ttcaatcctgagattgaccctaaactaaagcaatatagtgaggaagcaataaagaaaaactccgag catatgaagtatgtaacgctgaaactatgggcaagctataaaagagaaaaggatgaacgttataag aattatggaatgtatgaggacaatccgcaaattgctttacaagagaccaaagaaataataaaaaag cttaatgaggaagggggtgaagatttcagactattaaatggtaatataccagcagacgtttgttct gtattactgttagattattttaatcagttgaataatgaagagagagaatactgtaaagatattgtt ctagcgtattctaaacttccgttgaaggaaggctataattatcaggtacaagatggaacaacctcg gcaatttcagccttacccgtgatttatcataattatccaatggaaagggagactataaaaacaata ttacttttgacactgtttaatgaccactctattggaatggcaggtgggcgctactcagtatttcct agtatggtgattcataaattatggctagactattttgatgatatgcagtccctattgtttggtttt ttgattttaaagccaaaatatgtaatcctttcaagaaaaatcattcatgaaagttatcgtcaagta gactatgacattaaaaaaataaatattaataaggtgtttttaaataactataagcattgcatatca aatgtcatcgataataaaatatctatagatgatttgggaagtatggataaagttgatctacatatt ttgaacacagctttccaattaattccagttgatactgttaatattgaacataagaaattggtttcc ttaattgttaaaagattttctacaagcctattgtcaagtgttcgagaagatagagttgattacgct cttcggcagtctttcttggaaagatttgcctactttacgcttcatgcgcccgtgagcgatattccc gattatataaaaccttttcttgatggtttcaacggttcagagcctatttcagagttatttaaaaaa tttattctcgtcgaagatagattaaatacttacgccaaattttggaaggtttgggatttgtttttt gataaagtggttactttgtgcaaggatggagataggtattggtatgtagataaaattataaaaagt tacctttttgctgaatctccatggaaagaaaactctaatggttggcacacatttaaagatagcaat agtcaattcttttgcgatgtatctaggactatgggccattgcccttcaactttatattctcttgcc aaatctttgaataacattgccagttgctatcttaatcaaggtataacttggctttcagaaatattg tcggttaataaaaagctatgggaaaagaaattggaaaatgatactgtttattatttggaatgtttg gttaggcggtatattaacaatgagcgtgagcgaattagacgaaccaaacagttgaaacaagaggtc ttagtaatattggattttttggtagagaaaggatcggttgttggttatatgtcacgggaaaatatt ctgtgatgtagttgaaaataataattttaatgagagcttttccaatttaggctccagggattggag cctttttattatcg (SEQ ID NO: 287) 40 16 actagctaagcaataagggcgatcggctctcccatagatcgaggccgaatgatgttagcaatgttc actcttggctggaatctgccagaaatcgaggtcatatggtctgctttgagtgaggagcgcaaatgg ataaagccctcatgagttctttttcaatgacctaacttttgagaggcactgggttagatcatgttt catgtttgcaatacaatatatatttaaacttaggtttataacttaaatgttagttcctgatctaaa ccagattattaatcactcctagagtgaaatgagttaagccaagagttgataaaattaacagttttt tttacaatatctggatgtttgctagcgaacaggcatctaaaataactatgctgagctaaacttaca attcaaattgtaccgaggataaaatgcaagtacaacatcatactgaaccaaacttgaagaatgaga ttgtggctttatttaaggcttctcaattgatacctttttttggcagtggatttactagagatatta gagcaaaaaatggtaaagttcctgatgctattaaatttacggagttgattaggaatatagcggcag aaaaagaagggttaacacaaacagaaatagatgaaattctaagaatcagccagcttaaaaaagcgt ttggacttctaaatatggaggaatatatacccaaacgaaaatcgaaggcattattaggtaacattt tttcagagtgtaaactctctgatcacgaaaagacaaaaataataaatttagattggcctcatattt tcacgtttaatattgacgatgctatagaaaacgttaataggaaatacaaaattctgcatccaaatc gagcagttcagagagaatttatatctgctaataagtgtctattcaaaattcatggcgatattactg aatttattaaatacgaagatcaaaatctgatatttacttggcgtgaatatgcacacagtatagaag aaaataaatccatgctatcctttttatctgaggaagccaaaaactcagctttccttttcataggtt gcagtcttgatggagagcttgatttaatgcatttatcaagaagcacaccatttaagaaatcaattt atttgaagaaaggatatttaaatttagaagaaaaaatagctctttcggagtacggcatcgaaaaag taattacctttgacacttacgatcagatatatcaatggttaaataacacacttcagaatgttgagc gaaaatcccccacaagaagtttcgaactcgatgactccaagttaatgaaagaagaggctataaatt tattcgctaatggaggccctgtaactaaaatagtggataataaaagaatcctgcgaaattctataa ctttttctcaacgagatgtctgtgatgatgcaattaaagcactacgtaatcatgactatatcctaa ttacaggtcgacgtttcagcggaaaatctgtacttttatttcaaattattgaggcaaaaaaagaat ataatgcctcttattactcttcgactgacacattcgatccttccattaaaaactcattgataaaat tcgagaatcatatattcgttttcgactctaatttctttaatgcacaaagcattgatgaaattttaa ccacaagggtgcatcctagtaacaaagttgttttatgctcgagttttggtgacgcagagttatata gattcaagttaaaggataaaaagatattacataccgaaattcagattaaaaataacttgattaatg aagaaggtaactatctcaatgataagctttcttttgaggggctaccactttataaatcttcagaaa cgttgttgaattttgcttatcgatactatagcgagtataaaaatagactaagtggttctaatttat ttaataagcaatttgatgaagattcaatgtttgttttgattttaattgcagcttttaataaagcca catatggtcatatcaacagtcacaataaatattttgatattcagaattttatttcgcaaaatgata gattatttgaattggagtcaactaacacagatccaagtggagttataatctgcaattcaccatcct ggcttttaagagttatcagtgagtatattgataagaatcctgcatcttataaaacagtatctgatt taataatatctcttgcgtcaaaaggatttcttgcagcatcaaggaaccttataagctttgataaac taaatgaacttgggaatggaaaaaatgtccataaatttatcaggggtatatataaggaaattgcac atacctatcgtgaagatatgcactactggttacaaagggctaagtcagaattaatatcggcacaca caattgatgacctcgtcgaaggaatgagttatgcaagcaaagtaagactcgatagtgccgagttta aaaatcaaacttattacagtgccacattagtattagcgcagttgtctgcaagggctctatctataa ataatgataaaatatatgcgctgagcttctttgaaagtagcctagaatccatccggaattataata ataactcaaggcacataaacaaaatgatggataaaaatgatggtggctttagatatgcaatacaat atcttaaggataatccattaatagaactccttcctcgtaaggacgaagttaatgaattaattaact tctatgagagtcgtaagaaataatcatccttaaattaataaatggcaagtaactcattcccttgtc atttattaaactcttaagagccttatcccgaaaagtattaatctgagctaataagattgtttttca gctatgtcattattttattgccaatatatttacacttaagcattgacaggtagcggatagttattt ttggcttgtaaataagccttttaataatagaactgtaagacaatcgctctgattttttgaaattta tctcaatgttaaattcttccgcttttggcacaaacgggctagagcagacagatttaatgagataag ggtatagatgaattctccatacccttgaacgattacttcccagttgatttgcttggtttcagtcct ggggtattaccgggtgtatccttattatcacgtctgcgttgatcgggttttcctgttgattttgca attggttttggaccaggtttaagccccataatcgtactccttagccatgtcagaggttattcctca gtgtggatataaggggagcggtaagaattatcaagcttggatgggcggtgaaaaatgactacttga ctattatgtgagcaatgtcagcttttgacatttagaggccagcccattactgaagtaagccaaaaa tgagtcgcgatgagccctcaacaatgagggccacctcggagattg (SEQ ID NO: 288) 41 17 tattttgcgtagctagaacgcaatcaaatctagcagtccgctttgttcggagttcggacattatga gttggcaagtaaagtagcttgctaggaagccggatttgcacggtcggtataataagatgtaacccc ttgccttcatttactcgaatgaacgtgcacattggataggaggaaaaggaatgcaattcattacca acggccctgatattcctgatgagcttttgcaggcgcacgaggaagggcgcgttgtgttcttctgtg gagcaggcatttcctaccctgctggtttacctggtttcaaagggttggtagaactaatttaccaga ggaacggaacaacactttcagaaattgagcgtgaggttttcgagcgtgggcaatttgacggcacat tagatttgctggaacggcgcttaccagggcagcgtatagccgtccgacgcgcgttggaaaaagccc ttaagccaaagctccgtcgtaggggcgctattgatactcaggcggcgctgttacgtttagcccgta gccgcgagggtgcccttcgattggtcactaccaactttgaccgtctctttcatgtggcagctaaac gtacaggccaggcttttcaggcctatgtagcgccgatgctgccaattccaaaaaacagccgctggg atggacttgtatacctgcatgggctgttaccggaaaaggcggatgatactgccctgaatcgtctgg ttgttaccagcggtgactttggcttggcttatctcactgagcgttgggcagctcgctttgtgagtg agttatttcgtaactatgtggtctgcttcgttggctacagcatcaacgacccggtactgcgctaca tgatggatgcgcttgcagcagatcggaggctcggtgaagtcacaccacaagtatgggcactggggg agtgtgagccggggcaggagcaccggaaagccatcgagtgggaggccaaaggggtcactcctatcc tttacaccgtaccggcgggctccactgatcattcagtgctgcatcaaacgttgcacgcttgggcag atacttatcgagatggtatacagggcaaaaaggctatagtcgtcaaacatgctctggcccgcccgc aggacagcactcgtcaggacgatttcgttggtcggatgttgtgggccttgtcagataaatcaggtt taccagcaaaacgctttgcggaactcaatcctgcaccgccgctggattggttattgaaagctttct cggacgaacgatttaaatacagcgatctgccacgcttttgtgtatctccgcatgtcgaaattgacc cgaaactccgattcagtctggttcagcgtcctgcgccctatgagctggccccgcagatgtcgctgg tttctggatgtgtcagtgctagcaaatgggatgacgtaatgtcccatatagcccgttggctagttc gttatctgggcgaccctaggttgatcatatggattgctgaacgcggcggacaaatacacgaccgtt ggatgtttctgattgagagcgaactagatcgcttagcagcactgatgcgggagcgtaagacttctg agttagatgaaattctcttgcattcccccctggctattcctggtccacctatgtctactttatggc ggcttctgcttagtggtcgtgtgaaatcgccattgcagaacctggatttgtatcgttggcaaaacc gcttaaagaatgaaggcttgacgactacattgcgcttggagttacgcgggttgctttctcccaagg ttatgttgaggcggccgtttcgctatagtgaagacgattcgagcagcactgatgaacccttgcgaa tcaagcaattggtggattgggagctggtgctgactgctgattacgtacgttcaaccctgttcgacc ttgctgacgagtcatggaaatcgtccttgccatacctgttggaagattttcagcagttgttgcgtg atgcactggacttgttgcgggagttgggagagtccgacgatcgtcacgaccgctcgcattgggatt tgccgtccatcactccgcactggcagaaccgggggttccgcgattgggtgagcctgattgaattac ttcgggattcatggttagccgttcgagccaaagacagcgatcaggcctcgcgcattgctcagaatt ggtttgagttgccatatcccaccttcaaacgtctggcactgtttgccgcaagccaagacaactgca taccacctgagcggtgggttaattggttgttagaggacggttcatggtggttgtgggccacggata ctcggcgagaggtattcagactgtttgttttgcagggacgacatctgacaggaattgcacaagagc gtctggaaactgctatcttggcagggcctccgcgcgagatgtacgaggataatttggaagcagaca ggtggcattatttggtggctcattccgtctggttgtgtctagcgaagctcaggggagcgggccttg ttttgggagagtctgcggctacacgtttgacggaaatatccacagcatacccaaaatggcaactgg caaccaacgagcgtgatgaattctctcactggatgagcggaaccggtgatccaggcttcgaggaga gtatagatgtcgacattgcgccccgtaagtggcaggaattagtgcaatggctcgcaaagcctatgc cagaaagactgcctttctatgaggacacttggagtgatgtttgccgtacgcgcttttttcacagtc tgtatgcgttacgtaaactatcacaagatgatgtgtggcctgttggtcggtggcgtgaagctctgc agacttgggctgaaccagggatgattttgcgttcgtggcggtacgccgcaccgttggtgcttgaca tgcctgacgcagtacttcaggagatttcccacgctgtcacttggtggatggaggaggcttcgaaga ccatcctctgccacgaggagattctactggccctttgtcgtcgggttctgatgatagaaacaagcc cagagtctagcaccattcgaaacggaattgagacctatgatcctgtttctacggcgatcaatcatc ccattgggcatgtcacgcaatcactgatcaccctatggttcaaacagaacccgaatgacaatgatt tgcttcctgttgaattgaaaacacttttcaccaaattgtgtaatgtacagatagagctattccgcc atggtcgggtgttgctggggtcgcggctgatcgcattttttcgcgtagatcgaccttggaccgaac agtatctattgcccttgtttgcttggagtaatcccgtcgaagcaaaagctgtgtgggaaggcttcc tctggtcgccacgcctgtatgaaccgttgctgatagctttcaagtcagattttttggagagcgcca atcactattctgatcttggcgagcaccggcagcaattcgctattttcctgacttatgcagctctgg gccctaccgagggatataccgtggaggagttccgaacggcaattagtgctcttccacaagaaggtc tggaggtagccgcgcaggcgttataccaggcacttgaaggtgcgggcgatcagcgcgaggagtatt ggaaaaatcgtgtccagccattttggcaacaggtttggccaaagtcccgcaacttggccaccccac gcatatccgaatcgttgactcgtatggtgattgctgcccgaggtgaatttccggcggctttggcag tggtgcaggactggctgcaaccgctcgaacaccttagctacgacgttcgccttttgctagaatcag atatttgcagccgatatcctgcggacgctctatccctgctgaatgccgtgattgccgaacaacact gggggcctcgagagttggggcaatgcttgcttcaaattgttcaagctgctccacaactggagcaag atgttcgttatcagcgattaaatgaatattctcgaaggcgcagcgtgtgaaagtgacaggcgttgg acagtgcgaactgtggagcctaacaaggtaaagacactctaactgataatgctgcgccgctcgtgc aatgcaatacagtttttatctagcggtgaattatggtgttaaaagttagcccctgacacagggtgg gtagttggctctgtgtcattgatgggtattagttctgatatgagctaataccca (SEQ ID NO: 289) 42 18 gtaagacaagggttgagcaggctactaatcgttacacaggctaacaaaggcatattaagacgattt gtagcgctgtaaccttgaaaattatgtacaagcgccccgcattacgtcgttttaaaggccatcgga ttcaggcccgacgcggcttcacgcgattataaccgtgaaaaatcccccccgcatagaacctgaatt atccccgccgccgcgcagaactgacagcgcttcagaaccgttaaccctctcagaaatcccgctttt ttactgtaaaaaaccatgcataaggtgcatggttttgcatgcgtttcaccgacactgaatcccccg ccagcgccagcagtagcgtgccctgaggccgttaatgcacccgtattaaaagcgccctgttaagcg agcaggcggggcggggcgagcattgcgcgtcggtgttaccaattctatatggacattgagcaattc aaatataataaaggttgggtatatttcgtcctcaacgatgtcaaaaactgcaaaagcgtattataa ttcagatcattttcagaccacctattttaatcatgcatgcaaaatggaatatgtgatgacaaataa aaacaaaatcaaaccattattaaataatatatccgctcgcctttgggatggtcgtgcagctatatt gataggagctgggttcagtcggaatgcaaagccattaacaagcaaggcaagaaagtttccaatgtg gaacgacttaggtgacattttttatgaaagtgtttactgcaaaaaaaacgacaatagatattcaaa tgtattgaagctaggagatgaagttcaggctgcatttggtagagcgacacttgataaattaatcat ggatcatgttccagataaagaatatgaaccatccaaattacatgtttcccttctttccttgccgtg gattgatgtttttacgactaattatgatacattacttgagcgagcaagtgttaatgtcgactccag aaaatatgacattgtccttaataaaaatgatttaatgaatgctgaaagaccaagaattataaaact gcatggtagcttcccatcagaaaggcccttcatagttacggaggaagattacagaaagtatccttt agaaaattctccttttgtgaataccgttcaacaatcattgattgagaatactctatgtctgatagg attttcgggtgacgatcctaacttcttaaattggattggttggataagagataatcttggcacaga aaattcacccaaaatatacttgatcggtcttttttcatttaatgaagcacaacgtaagcttttaga aaaaagaaatatttccattgttgatttaagttttctaggtgattttggcaaggatcattatctagc acaccaacgctttatccaattcttatacgaatcaaaaaatcgagacaacctaatagagtggccaat agaaaccaattatgacagaattgtttttaatgatggcattgaattaaaaactgagaaaattaaaaa gtgtatcttagaatgggctcagtcaagacaatcatacccgaactggcttattttgccggaatcaaa cagaagtaatttatggcaaaacactatagattggttatctgttgctaattatgatgtcgcttggga tggttctgatgatcttgattttggatatgaaattacatggcgactaaataaagctttgctaccaat tttcaatgatacatcagaattcttatttaagttgattgaaaaatatgagatcaattacgtttcggg gataaataataaaatcattgactttgatgaaaaatactctcatataaccctcagtttaatgagatt ctgtcgacaagaaaaccttattgataaatggaagaatctaaacgatttattaattcaaaatcttga tcgattaacaccagaggtaaaatctgattattattatgaaaatatattattttcatacttcaattt aaacttcgatgaagccagaaacaaactctccaactgggaaacgaataaactcctcccccatcatga aataaaaagagcaggattacttgccgaatttggaatgcttgatgaagcaatcaatcttcttgaaga aactttatctacgattcgaagaaacagtttgctttcatctagaaacattgactattccagtgaatc tcaagaagcatatggaatctatattttgcgaatgtttaaacggagtttgcgtttagatagcaaaga tgacgattattcatctgagtataactcgcggttggctacattatcacaatatcgcagcgatcctga aaacgaaataaaatacctagaaattaaactagagtcactaccaggtaccttcaagaataccaatga cacggatttcgatcttaacaaaagaacggtgaccacttatttaggaggaagcccaacagaagtgag gtcattagatgcttttagtttctttctactggcagaggaacttggcctccctttccacataccagg aatgaacatttttagtggaatagttgagaatgcagctcgacatatttatcaatactctccagagtg ggctattttttcaatatttagaacatttaacaaggataaggccaagagtctattcaatcgaaatag aatttcgtctcttgagcgaaaaaaggttgaagatttatttgatggatactacaaaaaatatgagca aattatcacaaaaaaaatagaagatagattaaacgataaacttgagatagaaatttctacgctatc aatcattcctgaaattctttcccggctagttacaaaagtatcatttaataaaaagaaagacattat tcaccttttgcttaaactgtttaactcggataattttcatcaatacatggagactaaagatctatt aaagcgcactatttccaatttgagcgacttacaaaagatctcactaatagatattttcattgattt cccctccgcgcctcccaatacccaattacatatgggtcaaagatacaacttccttactccatttga atgtctattaggggttacaataacccccccaaaagaaaactctaaaaaaatcgcatctgcaaaatt aaaaaaagatataaacgatttaaaaagtgataatttagacttgaggaaagctgtatcacaaaagct cataacattatataacctagaaatgcttaacaaatctgacacgactaaacttataaaaaacctttg gtcaaagcgtgataactttggattcccaataggcagtggttactataaatttttctttataaacaa ccttaacccagataatgaaaatatagccgacaaattcatttctataattaaaacatacaaatttcc tgtgcaagaaggaaaaagagttagtattacaggtgggttagatgagtattgtactgaactcaatgg agcgctacaccatataagtcttccagagaaaaccctatctgaaataatttcaaaaatacatgactg gtatgtcaaggatcgggcctggcttgaaaaaagagatgatttagccaaggagttcactcttagatt cagaaatatcacaaatatcataacgacaattttagaacaccataaggacaaattacatgctgaatc tataaatgaaatatcaagcctactagataaaatgaaagaagacaagatacctgtaaactcagcagt aacaatgctttgtctgaaaaataaaagcacttacctcgagagaataaaagatatagagaatggact atatagctttaataaagatgatgttattgaagctatcaactcaacttatgtctttattagaaacaa tgaatttccactaaccatcattcaagctatcagcgataaaatcgcatgggatagaaaccctcgcct tcctgattgctacaatttaattgcatatataattaactcgtgtgaatttactcttccagattattt aatagagaaaatccttcgagggctggcatatcaaataaacattgatgatagagattttgttgataa caatgaatatttgaatcaccttgagaaaaaacttagtgcaacaaagctggctgcttctatgtttag aaaaaatgaaacactaggtattgaccaaccttctatcattcaagagtggaaaaacatgtgcaactc tagaaatgagttcgatgaaattaggaatgaatggaacaacaatatataaataaaggaagaacaccc aatttatattgggtgttctgttcacgaaacccttttaccataatcgaatggcaatataaattgaga ttgaaatttattctcatctaattaatcagcccaccattg (SEQ ID NO: 290) 43 19 tagctattgtgactatgctaaccatatgaatctattgtgtgattatgagtaatgactttttctaat 44 atttgatttttaatgtagtaacttagctaattttaaaatttgtaaaaggatgtttatgtcgattta tcaaggtggtaacaagttaaatgaggatgattttcgttctcacgtttattccttgtgtcaattaga taatgttggcgttctgttaggtgctggtgcttctgtcggttgtggtgggaaaacgatgaaagatgt atggaaatcgtttaagcaaaactaccctgagcttttgggagcacttattgataaatatcttctggt ttcgcaaattgattctgataacaatttggtcaatgttgaacttttgatagatgaagcaactaaatt tctttctgtagctaaaactagacgatgtgaagatgaagaggaggaattcaggaaaatattaagttc attatataaagaggttacgaaggctgcattattaacaggagaacagtttagagagaaaaatcaggg taaaaaagatgcgtttaaatatcacaaagagttaatttcaaaattaatttcaaatagacagcccgg tcagtcggctccggcaatttttacaacaaattatgatttggccttagagtgggctgcagaagattt aggaatacagttgtttaatggtttttctgggctacatacacggcagttttatccccagaattttga tttggctttcagaaatgtaaatgcgaagggcgaagcaagattcggacattatcatgcgtatctcta taaattacatggctcacttacgtggtatcaaaatgatagcttgactgttaacgaagttagtgcatc tcaagcatatgatgaatatattaatgacataatcaataaagatgacttttatcgcggtcaacattt gatttatccaggggcgaataaatatagccatacaatcggcttcgtttatggagagatgtttagacg ttttggggagtttatttcgaaacctcaaacagcgttgttcataaatgggtttggtttcggtgatta tcatataaatagaataatattaggcgcgttactgaatccatctttccatgttgttatatattatcc tgaattgaaagaagcaattaccaaagtaagtaagggtggtggttcggaagctgagaaagctattgt tactttaaaaaatatggctttcaatcaagtaactgtagttgggggaggaagcaaggcatattttaa tagtttcgtagaacatctaccataccctgtgctctttccacgagataatattgttgatgagttggt tgaagcaattgctaatctttctaaaggagaaggtaatgtccctttttaaacttactgaaatctcgg ctattggatacgttgtaggattagaaggggaaagaattaggataaacctgcatgaggggttgcaag gcagattagcatcgcatagaaagggggtgagctcagtaacgcaaccaggagatcttattgggttcg atgcaggtaatatattagttgtcgcaagagtgacagatatggcatttgttgaagcggataaagcgc ataaggcaaatgtaggcacatctgatttagctgatatacctctaagacaaattatcgcctatgcaa ttggctttgtgaaaagggagttaaatggttatgtttttatatcagaagattggcgcttacctgcat tgggttcttctgctgttcctttgacttcagattttttgaacatcatttatagtattgataaagaag aactcccaaaagcggttgaattaggtgtggattctagaactaaaaccgttaagatatttgcaagtg ttgataaattattgtcgcgacacttagccgttcttggtagtacaggatatggtaaatcaaatttca atgctttgttaacgaggaaggtttctgaaaaataccctaactcaagaatagttatttttgacataa atggtgaatacgcgcaagcttttacaggtattccaaatgtaaagcacactattctaggggaatccc caaatgttgatagtttggaaaaaaagcagcaaaagggtgagctatatagtgaagagtattattgtt ataaaaagataccatatcaggcattaggttttgctgggttaattaaattattaagaccaagtgata aaacacaattgcccgcattaagaaatgcattaagtgcaattaatcggactcattttaaaagccgta atatttacttggaaaaagatgatggtgaaacttttcttttgtatgatgattgtcgtgacacaaatc aaagtaaattggctgagtggttggatttattaaggcgtagacgtcttaaaagaacgaatgtatggc caccgtttaaaagtttagcgactttggttgctgaatttggatgtgtagctgctgaccgttctaatg gaagtaaacgtgacgcgtttggttttagtaacgtgttgccattggtaaaaatcatacaacaacttg cagaggatataagatttaaatctattgttaatttaaatggagggggtgagctagcagatggtggaa cgcattgggataaagctatgagtgatgaagttgattacttctttggtaaggaaaaaggacaagaaa atgattggaatgttcatatagttaatatgaaaaatttggcacaagatcatgctccaatgttactta gtgcattgttggagatgtttgctgagatactatttagacgtgggcaggaacgttcgtatcctacgg tacttttgttggaagaagcgcatcattacctgcgtgacccttatgctgaaattgactcacagatta aagcatatgaacgacttgctaaagaaggtaggaaattcaaatgctctttaattgtcagtactcagc gaccctcagagctttctcctactgttttggcaatgtgttcaaactggttttcgttacgtttgacta atgaaagagatttacaggctctcagatatgcaatggaaagcggtaatgaacaaatcttaaaacaaa tatcaggtttaccaagaggtgatgctgttgcatttggttctgcatttaatttgcctgtaagaattt caattaatcaagcaaggccagggccaaaatcttcagatgctgttttttctgaagaatgggctaatt gtacagaattacgttgttaattacctgatgtacatggctagtgcaagttggtagcgcatgtctata tgcatttatttgcatgtgttttattgagtgagcgcacaagcttgatgacccgacaggtatgtattt agactgaa (SEQ ID NO: 291) 45 20 gtgcgccttatgtgattacaacgaaaataaaaaccatcacaccccatttaatatcagggaaccgga 46 cataaccccatgagtgcaatagaaaatttcgacgcccatacgcccatgatgcagcagtattgaaaa atataacatatccaactgattgtattgaaaatttaaaatagccatataacaaaaggttacacataa gctactttttggggtttcaggcaagaaactaaaaattattaacgccatcaaattattcacatctta ataattagcattgaaatttaatgtttttggttctttgtacatgtcaatggcttgtctttgtggcag aatcataaagctatgcaatcattgcattgttattaacacagcatatttttatatacttttaacacc ttacctcaaaaaggataacaaagtggacagaagtgcggttgatacaattcgtgggtattgttatca ggttgataaaacgattattgagattttttcgttaccacaaatggatgactcgattgatatagagtg cattgaagatgttgatgtctacaacgatgggcatttaactgcgatacaatgcaaatattatgaaag taccgattataaccactccgttatatcaaagcccataagattaatgttgtcacactttaaggacaa taaagaaaaaggggctaattattatctttatgggcattataaatccggtcaagaaaagttaacact cccattaaaagttgactttttcaaatctaatttcctcacctacaccgaaaaaaaaatcaaacatga ataccatattgaaaatgggcttaccgaagaggatctacaagcctttttggatcggttagttataaa tatcaatgcaaaatcatttgatgatcaaaaaaaagaaactatacaaataataaaaaaccatttcca atgtgaagattatgaggcagagcattatctttattctaatgctttcagaaaaacatatgatatctc ttgtaataaaaaagatagaaggataaaaaaatctgattttgttgaaagtatcaacaaatcaaaagt cttatttaacatatggttttatcaatatgaaggaagaaaagaatatttaagaaaattaaaagaatc tttcatacgcagaagtgtaaacacctcaccttatgctcgttttttcatcttagaatttcaagacaa aactgatataaaaacagttaaagactgtatatataaaatacaatcaaattggtctaatttatctaa aagaacagatcgaccatattctccttttttactttttcatggcaccagcgatgccaatttatacga attaaagaatcaattattcaatgaagatctaattttcactgatgggtacccttttaaaggaagtgt atttacccccaagatgttaatcgaaggtttttcaaataaagaaatccacttccaatttatcaacga catagatgatttcaatgaaacactgaacagtattaatataagaaaagaagtttaccagttttatac ggaaaactgccttgatatcccatcccaactaccccaggtaaacatacaagttaaagactttgccga cataaaggagatagtgtaatgagcaggaataatgatattaatgcagaagtagtatcggtatcgcca aataaattaaaaatttccgtagacgatcttgaagaatttaagatagcagaagaaaaattaggtgta ggatcttatttaagggtttcagataatcaagatgttgctcttctggcgatcatagataatttttct attgaagttaaagaaagccaaaagcagaaatacatgatagaagcaagtccaataggtcttgttaaa aatggaaaattctatcgcggtggagattcacttgcacttcctcctaaaaaagtggaaccagcgaaa ttagacgaaataatatccatatactcagatagtatagatataaatgaccgttttactttttcaagc ttatcgcttaataccaaagtatccgtacctgtgaatgggaatagatttttcaataaacatatcgct atcgtaggttcaacgggttcaggtaaatcccacactgttgcaaaaatacttcaaaaagccgtagat gaaaagcaagaaggttataagggattaaacaattctcatataattatttttgatatacattctgaa tatgaaaatgcattccctaattcaaatgtattaaatgtagatacattaacccttccatattggcta ttaaatggtgacgagttagaagagctttttcttgacacggaagcaaatgatcacaatcaaagaaat gtgttccgtcaggcaataacattaaataaaaagatacattttcaaggagatccagccacaaaggaa ataataagctttcactcgccatattatttcgacattaatgaagtcatcaattatattaacaataga aataatgaaagaaaaaataaagataatgaacatatttggtcagatgaggaaggaaatttcaagttt gacaatgaaaatgctcataggttattcaaagagaatgtaactcctgatggaagttcagccggtgct ttaaatggaaaacttctcaattttgttgatcgattacaaagtaaaatatttgataagagattagat tttattctgggtgaaggtagcaaatccgtaacatttaaagaaacattagaaactttaataagctat ggaaaagataaatcaaacataacaatacttgatgtaagcggtgttccttttgaagtacttagcata tgtgtatcattgatatctcgattaatttttgaatttggctatcattcaaaaaaaataaaaagaaaa tctaatgaaaaccaagatatcccaatattaattgtttacgaagaagcacataaatatgctcccaaa agtgatctgagcaaatacaggacatccaaagaagcaattgagaggattgcaaaagagggtagaaaa tacggagtaacccttctccttgcaagtcagagaccttctgaaatttcagaaacaatattttctcag tgtaatacttttatctcaatgcgattaactaacccagacgatcaaaattatgttaagcgattactc ccggatacagtaggtgatattacaaacctcctaccatcgctcaaagaaggtgaggccttaatcatg ggggattcaatatcaataccttcgattgtaaaaatagaaaaatgtacaatacccccatcgtcaatt gacatcaaatatcttgatgaatggagaaaagaatgggtagattcggagtttgataagataattgaa caatggagtaaaagttaatttcagaagtggattcactcttgctcaagagtgaatccactaatatca tatcctaatgatatagtttaataaaatctattctggaatcattaggctgagag (SEQ ID NO: 292) 47 21 accgtgctggcatgtttttacggagtgacgctttcattaacctgtacacgaacttctattccggca tcatgacaggcctgcagccactgcgccacttccagcggatcgccctcccggcgtaccactctgcct tctttattccataactgcagacaggtgctgccgtcgagacgcaccacaaaatccccacggcaggcc tgataggggtttgagggccaaccgtacgaaaacgtacggtaagaggaaaattatcgtcttaaaaat cgatttatgctatcacagtcgtctcttcaggtaagtacggttgcctttgcctgctttcttctcgtc tggttaagttaagaaattcagagatccatgcttgagataaaagcggaataaaaccagtaaaatgta actaaaacaacaacggaattgtatcaatgataatgtccacaccgtggctgacaccgatcgttgccg atagtgatcatgctgaggcaaatgcagtgagctatgaagcactgactccgacagaactcgactcag ataaagcaggctgttatatcagcgcgcttaattatgcttatgaacatccggatatccggaatattg ctgttaccgggccgtatggggcagggaaaagctcagtattaaaaacatggtgcaaagctcacaatg ggacactgcgggtgttaaccgtttctcttgctgattttgatatgcagagacatgtggatgaaagta atggggacagcagtagtgacgaagggacgaaaaatactggtagtgttgaaaaatctattgaataca gtattctgcaacaaatactctacaaaaataaaaagcatgagcttccctgttcccgcattgaccgta tatcagatgtgactgcgggacaaatattgcggtctgcgtcttttctgacaggaaccattttactga gtggagctgctttatttttccttgcgccggattacgttacaacaaagctatctttgccgggagcat tcgcccgttaccttcttgaatgcccgtttggggtgcgtgtgtccggtgcagtggcatctgtgatgg gatcgttatgcctgcttttgaaccagttacatcgtatcggtatatttgacaggaaagtaagtcttg ataaagtggaccttctgaaaggcgctgttacaacccgggcatcatcaccttctttacttaatgtct atattgatgaaattgtctatttttttgattcgactaaatatgatgtagtgatattcgaagatcttg accgttttaacaatggccggattttcgtgaaattgcgggaaatcaatcaaattattaataactgcc tttctgacagaaaacctgtaaaatttatttatgctgtcagagatggtattttcaactcagcagagt caagaacgaaattctttgattttgttatgcctgttattccagtgatggataaccagaatgcttatg agcattttgttaaaaaattcaaagaagaagagataaataataacttaagcgaatgtatttctcgta ttgcgacatttattcccaatatgcgtgtaatgcataatattacaaatgagtttcgactctatcaga atttagtcaatagtcgggaaaatctggccaaactacttgccatgatagcatataaaaatctctgtg cggaagattatcatggtatagatagtaaaaaaggtgttctttatcattttattcaaagctacttag accatgaaattcagaatgaattattacattctgcaaataacgaacttgaggatatggcacagtcac ttgtagcgataacaaatgaaaaactcgcaaaccgggaaaatctgcgcgaagaactgctcatgcctt accttagtaaaaattatagcggcgcgcttgttttttatacagaaggaaggcaaataagtcttgatg atttgatacaagatgaagatgaatttctcatgcttttagataaggaaaatattcaggtcgttaccc cctataacagacaaaattttctcatgataaatcagcgggatacagaaaaactgaagcagcagtatg aaaaacgatgccatttaattgaaactaaatctgttgataatataaccagagtgaaaaataatattt ccagtctggagtcattgaggaccgaaattctttccggaactgtagctgatatagcagaaaagatga caaatgaaggctttgttgcctggataaagaagaaagaggatacaggtgtcctgacgattcagtcgg aacatgaacagattgattttatattttttctgttatcaagtggttatttatcaacagattacatgt cctatcgctcaatcttcattcccggagggctgagtgagacagataatttatttcttaaggatgtta tgtctggtaaaggtccggaaaaaacattctcattccatcttgataacgttaataatattgttgaac gactcaaaaagctgggggttctgcagcgtgacaatgctcaacatcctgctgttatcagatggctga ttgataatgaccctgataccctgaaaaacaatataatggcattactgagtcagacgggtagccagc gtgtggttagtttgctgatgttgatgcagaacgatttcacaacgtatgttcgcctgcgttacctgg agatttttatgtcagatgaacatatactgaacagattgctggcacatttatgtgcgtcagaagaac gcacacccgagcaaaagttttttgttcaggaaatagcggcacacctgttatgcctgactgaaaaat caaatatctggcaatcggttgagattaataaacgtatcggtgagcttatagattcctccccaattc ttattactgctgtgccaaaaggatatggtgatgcgttttttgaagtgttgaaagataatacacttt cagtttcatatattccaggtgatgtgggagacgagaagtgttctgttatcaggaaaattgcgggtg caggattattcaaatattccgtcagtaatcttaaaaatgtttatctttgcctgacgcaagacaaga atgaagaaagaatgtcattctctctttatccgtttcattgtctcgagtccctggctatttctgaat taacagaaattctgtggactaacatagaagattttattttatcggtatttattgaatcggaagaga ttgatcgtattcctgaattgctgaattcttctgaagtctcaatgactgttgttgaacagattatag ccaaaatggatttttgtataaataatctggatgatattattaatcgttcagagtgtgcggacaata atgcttcagggagaaatatctatagcatgctgttgcagcatgacaggatttttccatcctttgata atattattcatttattgcatgatacatcaattaatacttccggtgaacttgttcagtgggtaaatg agaaacactttgaatttgaaccatctgatatagtcataaatgatacaggaatatttaataatttta tttctgaattaatttgctcgccagtcatttcagaagaagctttactgaaagtactgagtaatttaa acgttgttattatcgatgtgcctgaaaacattccattgcgaaatgctgaactgttatgttcagaga aaaaactggcaccgacagttaatgtctttacggtgttgtttaatgctctcagtgaaaatgttgatg atattaacaggatgaatactctgcttggtaaccttattgcccagcgtcctgagattattacccagg agccagaagatattttttatatcgagggtgactttgatgaagaactggcaagcgaactttttcgtc acaagctaatcggtatgaatataaaagttgccgctttacgctggttgcgtgataacaaaccgggaa ttcttgataagagctacctgctgtcattagatattctggcagaactgagtccctggatgggtgacg atgatctgcgcctgacactgcttaaacgttgtctggttgccggggatgctggcaaagacgcgcttt gcgtggtgctgaacagttttgctgatgagagctatcatggactgttaccacatgacaggttcagga aaatccctcactccgtggatttgtgggaagtggccgaattaatcagcaatcttggatttattcagc cgccaaaaatggggtcagggcgtgatgaacacaaaattgttattactcccgtacgctatgtccgtg atgttgagttttatgactgagcatcattgatacggtgttttaattgccttaaatacaaaaataaaa acagattaatgcttaatgtgcattaatctgttttagttatcaatggctgttaattattgttaattt tacattaatctttctttttcttcaggaagatccgaaaactcctggtcacggatcttcct (SEQ ID NO: 293) 48 22 gaaattatttggaatggatgatggcgcttgattactggaacaggtctatgacatgaaggttatgat 49 ttgttcactgctatgaggttaacactttaacaatttcccttactattcttgtactaattccttcca 50 aatacttctgcttgagattaggatttatcctcttgtagtgttatttacaataaagattgtgatgct 51 gatttaacccaacgtgttgtcagttgccttgctgaactaagttcagtatctagaaattagctcttg atacatgagcgaatcagcgaaaattttcatcccgaccaattaatgaccgtaatggataggatgttg ctgctatttggcttccatgagggaacatatgtttttaaacgatcaagaaacgtccactgacctgct gtactacaccgctatcgccagcacagtggttaggcttgttgatgaaacgtcagatgcacccattac gattggtgtgcatggtgattggggggcgggaaaatcaagcgtactaaaaatgcttgaggctgcctg cgagaaaaaggataaaacgcactgtatctggtttaacggatggacgtttgagggattcgaagatgc taaaactgtaatcatcgaaaccatcgtcgaggatcttgttgcctcgcgcccgatgagcaccaaggt ggcagaagcagcaaaaaaggttcttcgtcgaattgactggttgaaaatggccaagaaagcgggggg actggcgtttaccgcatttactggcatacccacatttgatcagattaaggggatgtacgaactggc atccgactttctaagtgctccgcaggacaagctttctgctgcagatttcaaagcgtttgctgaaaa agcaggaggcttcatcaaagaggccgatactgatagtaatacgctacccaaacatattcatgcttt ccgtgaggagttcagggcgctgcttgatgctgctgaaattgaaaagctagtggtgatcgttgacga tcttgatcgctgcctgcctaaaaccgcgattgaaacgctcgaagctattcgccttttcttgtttgt agagaaaactgcatttgttatcggtgcagatgaagccatgatcgaatatgcggtaaaagaccattt ccccgacctgcctcaaagcaccgggccggtaagttatgcacgcaactatcttgaaaagctcataca ggttccatttcgaatccccgcactgggaactgcagaaacgcgtatatataccacgttgttgcttgc agaaaatgcgttgggttcggaggacgacaattttaaagcattgctcaataaagcacgggaagagat gaagcgtccttggatcagccgcgggcttgacagagaggcagtgatggcagcgttaaatggaaagat tccggaggttgtggaaaacgcgctgctattcagcctacacgttacccctatgcttagttcggggac acatggtaatccaaggcagattaaacgctttttgaactcaatgatgttacgccaggcgattgctga tgaacgcgggttcggtagtgacattaagcgtcctgtactggcaaaaattatgcttgctgagcgttt ttaccccagcgtatacggaaagcttgttcagcttgtatctaatcatccagagggaaaaccggaagc tttggcggagtttgaagccttggtcagaggggggaaaactgctccgaagagtcgcgctgacagcaa agagaattcctcagagtctgaagacgtccaaaactggctgaagattgattgggcgatcggttgggc aaaagcagagcccgcactttctggagaggatcttcgtccatatgtgtttgtcactcgtgacaaaca cagtactttgagtaatctggtcgtatcaagccatctcattcctataatggagaaacttcttggtcc gaaaattgggatggtgaaaatcaaaggggatttagagaaactgagtccaccggatgctgatgaatt attcgaaatgcttagcgataagcttttccaagaagacagtttcaatcgaaaaccaagaggatttga cggcctcgaatatctcgtagaaacacaacctcaccttcaaaggagattgattgattttgcacggcg cattcctgtaaaaaaagcagggggatggcttgctacccgtattgcgcaaagcctagtggaccctac gttaatagaagaatatacaaaactgatccaagaatgggcgagtcaggacgaaaatctgtccctctc taaatcagcaaaagcaaccctccagttatcgggatatcaacattaatgggaacctcaaaagcttac ggggggcctgttcatggcctaatccccgatttcgtggagaatccatctccaccgaccctgccgcct gttgaccctgcggatgatagcacgctggatacgccgctcattccaccggattcgagtggctcaggg ccacttagcacaccgaaagcaaactttactcgatactcccgttcaggaagtcgtagttctctgggt aaggcggtcgctggatatgtccgcaatggagtggggggcgcaggcagggccagccgccgtatgggg gcctcacgcgctgcagcagggggactgctcggtctcatcagcgactatcagcagggaggtgctact caggctcttgagcgcttcaatcttggtaatttggcagggcagtctgcatcgactgctcttctctcc cttgttgaatttttatgccctccaggtggttctgttgacgagggggttgcgcggcaggctatgcta gagaccatcgccgatatgtctgatgtaggagaggagaattttgatgagctcactcccgatcaatta aaagaagtctttattggtttcgtggttcactccattgaagggaggctcatggcggatattggtaaa aatgggatcaagttaccagacgacatagacgctatcgtcagtatccaggaggacctgcatgatttt gttgatggagctactcgtacacagctccgtgaggagctgaggaatcttacagggctttcaggggat gctatagacagaaaagtggaggagatttacaccgtggcatttgaattacttgcccgagaaggggag agattggaatgagccatcataccttagttgcccgtttgggcactgacgataactccgatttacagc tcagccgccaaagcacgcatctgacagaaattaattttctcaaagagaacggtaaactggatttcg gtctcgggcaggcgctgaatggtttgagtgatcttggtttaacgccaatggatgtctccgtggatc tggcactactggccgcaacggtgactgcggcggacacccgaatctcacgtgggcataacgctcaag atctgtggacgcgcgaaattgcactttatatcccggtagcttccccgacattatggaatagtcaga ctggattgctcagcaggatgttgaattttcttaccggcgaccgttggacaattcatttccgctcgc gccctgttattgagcacgggctcattcagcgatcctctaaggaacgttcggtgaaccctacttctg tttgcttgttttccggggggctcgacagcttcatcggtgccattgatttattatctaatgggggaa ccccccttctgatcagccactactgggatacgactaccagcgtttatcagcagaagtgtgctcagc tgctgtcggagcgatatggacaatcgttcagccatgtgcgagctcgtgttgggtttgaaaaaacaa cgattgagggagaagatggagaaaacacccttcgtggccgctctttcatgtttttctcgctcgcga caatggccgcagacgccctcggcgggccggtcacgataaacgtccctgaaaatggtttgatctctc tcaacgttcccctcgatccgcttcgtgtcggagcgctaagtactcggacaacccatccgttttaca tggcgcgttttaatgagctgctgggcaaccttggcatcagtgcacatctggaaaatccctacgcct acaaaaccaaaggtgagatggctatccattgccatgaccatgcttttctaaggcaacacgcggctg acaccatgtcatgttcgtctccgcaaagtacgcgttggaaccctgcgctgaatgagcagcaatcaa cacactgtggccgatgtgttccatgcttaatcaggcgagcatcattgtttacagctttcggcacgg acgatacgatttaccgtatcccggatctccgtagccgggtactggacagctctaagcctgaaggtg aacacgttcgggcatttcaatttgctctggcaagattggcgcgatcaccgagtcgagcaaaatttg atattcacaaaccagggccgctcagcgactatcccgactgcttagctgagtatgaaggtgtttatc tgagaggaatgaaagaagttgaacgcctgctgagtggagtcataacgaggccccttacatgaaatt agcaggacagaagcccgctccacaatgggtcgattttcactgtcatctggatctataccccaatca ctctgcactcatccgtgaatgtgacatttcacgtgttgccacgctagcggtgacgacaacccccaa ggcatggatgcgtaaccgggagttaacttccgattctccttatgttcgtgtcgcacttggtctaca tccccagctgattgcggaacgtgagcatgagatagcgttactggagcactatctcccttctgcacg ttacgttggggagatagggcttgatgccagcccgcgcttttatcgcagctttgaagcacaggagcg gattttttcccgtattctgaatgcctgtttcgagcagggggataagattctcagcatccacagcgt tcgcgctgcagccaaagtgttgggacatttggaaaacaccagacttactgaaaattgcaaggctgt cctacactggttcactgggagtatctccgaggctcgacgagctgttgaacttggatgctatttctc tattaatgaagagatgctacgttctcctaaacatcgaaagctggtgtcctttttgcctttcgaacg tatcttgacggagaccgatggaccttttgtgtttcacgaagaaaaagcgatacaccctcgtgatgt gcagcgtacggttcatgaaatcgcgcagatccaccacgtatcggacacagatgctgctatgagaat actttataatcttcgaagtttagtcaccaatagttctcacagtgagaatagttcatgaatctaatt agttggattaatacaggggaatagttgaatacttcagtcccctaaaagctaatatgctctatgtca tctaatgataagtggctccaaagagccacttatcattaacttttctaaagggaggtagaagt (SEQ ID NO: 294) 52 23 cggattgaatctgtttatgaaatttggctgctatcaactaatgggcgttaagttgattgtatgatc tgattgataaagaaggggagactaaaaatctcctcttctttgcagcagtttactgcggtctttttg tgatgcatcagcataaaacgttttacttgtggaccctaagaaatggagaacattatgtcgactgta gatacctctacagcagaggaactcaatcaaggaggctcagattttattctgacttccctcgaggct atgcgtaagaagttattggaccttacgtctcgaaatcgacttttgaatttccctatcactcaaaaa gggtcttcactacgtattgttgatgaattaccagaacagctttatgaaaccctttgctcggaaatc ccgatggaatttgctcctgtgcccgatccaactagagcgcagctgttagagcatggctatctcaaa gttgggccagatggtaaagatatacagttaagagctcatcctagcgctaaggattgggcgcacgtc ttaggaatccgtacagattttgatttaccagatagccataaaacggttgtttctgattcagataga gagttgctggaaaaagcccatcagtttatcttgcaatatgcccaaggccagaatggaaaattaaca gggattcgttctgaatacgttaatcaaggtatagctttgtcagcgttgaaggaggcgtgctgctta gcaggctatgaagggcttgaggattttgaacgacaggcaaaggctgggaatgagattagtatatct tcttccaatccctctcatgacgataatcggatacaggctctgctttatccaaatgaactggaagct tgtttgcgcgccatctatggtaaggctcaaactgctttggaggagagtggcgccaacatcttgtat ttggcgttagggttccttgagtggtatgaaagcgattcctctgaaaaggcacgttatgcaccgtta tttacaattccggtgagatgtgaacgaggaaaattagatccgaaggatggtctttacaagtttcaa ctttattacacgggtgaagatattttgcccaatctctctttgaaggaaaaacttcaggctgacttt ggcctcgctcttcctttgttcaatgaagaggaaactccagagtcttattttgcttcggtgaagaag gttgtagagcagcacaaacctaaatggtctgtgaaacgttatggtgcacttagcttgctcaatttt ggcaagatgatgatgtatcttgacctcgatcctgcccgctggccttgtgacaagcgcaatatattg tctcatgaagtaattcgtcgctttttcaccagtcagagctgtggtcaagagaattccggcttacct ggtggcttcggtcagcatgagtactgcatcgatagttaccctgatattcatgacaaggttccacta atcgatgatgcggatagctcgcagcacagtgcgttgatcgatgctatccgtggtcaaaacttagtc attgagggccctcctggtagtggcaaatcacaaacgatcaccaacttgattgcagcagctctgctc aacggtaagaaagtcctgtttgtggcagagaagatggctgcactggaggttgtcaaacgtcgcttg gatcgtgcggggctaggtcaattttgcttagagttgcacagtcataaaactcataagcgcaaggtg ctggatgatattaatgctcgcttggtgagtcaggcgaccatgcctactatggaagagattgatgct cagattttgcgttatgaagatcttaagcagcagctcaatgaatatgccgcattgatcaataaccaa tgggcgcaaacaggcaaaacgatccatcagattttgagtggtgcaacccgttatcgtcacaaatta gatattgatgcaacagcacttcatatcgaaaacctttccgggaagcagttggataaagtgacccaa ttacggctgcgtgaccaaatagtagaatttagccgcatctacaaagaggttcgtgagcaggtgggg gctaatgcagaaatatatgagcacccttggagcggtgtgaataacacacaaattcaattgtttgac agcgctcgtatagtcgatttgctacaaacttggcagacatcaattatcgactttcaacatagctat caagaatatgtagataagtgggcgttagaaggcgaaagccttaatacgcttcaatatattgagcaa ttggtagaagatcagtcgaatcttccagtgttgtgtggttcagagcatttcccagcacttagtgag ctagattcacccgatgccattgcacgggtgcgtcactatttagataggttcgagttgctacaaggt cattatgtggccttgagccaggttatcgagcctcaaaagctacgacttttagaacaaggacaatcg tgtgactttcctcgtgaagagctggaaaaatatggtgcagcagaggatttcactttacgtgatttg gtcaggtggcttgaatccatccaatcaattcatgatgagttatcatctatttatgcgcaattaaac gatttcaaaaatgctttgccagatggtattgcttcgtatatcgatgattcgcaagctggattgcta ttctgctctgagttgttgtcgattctgggtgctttaccgactgagcttattagagttcgagatcct ctttttgatgatgatgatatcgatgcagtattgcgcgacttaatgtgtcaaatcgaaacattgcgt cctttaagagatggtctatctactttgtatcaattggaccagttgccttcccaagagatgctcgcg catgccgttgctgttatccagcaagggggattatttgcatggtttaagagtgattggcgtagtgcc aaggcactgctcatggcgcaatctcgaaagcctgacactaagtttgctgagttaaaacgctgctca gctgatttgctcaagtattcggagctgttacaacggtttgaacaaagtgactttggtaatcaactt ggtaatgcattccgagggttggacaccgactgtgaacaactcatgttattgcgtgattggtacaag aaggtccgagcttgttacgggataggttttggaaagcgagttgcgataggctctggattatttaac ctagatggtgagattatcaaaggtgtgcatttaatcgagaaatcgcagattagctcaagattaatg actttggttaaacgggtcgagcacgaggctaagttattaccgcgtatttctagcttgttggaagaa catgcatcttggttaggtgagcaaggtgtattgatgcaatcttaccgacaggtgcggaatactctc attgccttgcagggatggtttatcaatccagatatatcattagagcagatgactcattcctccgag attttgcaaaacataaacgatcttcagatatcccttgaaaatgactcgttacagttaggggcgttt ttacaattaaccccattggcttgcggtgcgtataaaaataatcaactgacgttagacactattaac gacacgctgaattttgccgagcaactggttgataagataaattgcgtatccttggctacccagatc agacatttggctagtggtagtgattacgatttactatgtcgtgatggtggagaaatagtttcgaaa tggaatgaacagattaaaaatgctgagttatatgcgctagaaacaaagttagagcggagtcagtgg ctcaagtcgactgatggttctcttaatacattaatcgagcgcaacgaaagagcaatacagcaaccc cgttggttgaacgggtgggttaactttattcgttgttacgagcagatgcatgaaaatggattgcag cgaatctggagtgctgtacttgcgggctcgctcccgattgaaaaagttgaattgggtttagcatta gcaattcatgaccagctggcgcgggaggttattcacatccaccctgaattgatgagagtttccggc tcacagcgcaatgctttgcagaagtcatttaaagagtacgacaaaaaactgattgaattacaacgt cagcggattgcagcaaaaattgcttgccgaaatataccagaagggaattctggtggtaagaaaagt gaatatacagaactagctttgatcaaaaatgagttgggtaaaaaaaccagacatattccaattagg caattggttaaccgtgcatgtaatgcgctggttgcaattaaaccttgtttcatgatggggccaatg tcagcagctcattacctagaacctggacgaatggaatttgatctggtggtgatggacgaagcgtct caggtgaagccagaggatgcattgggtgtcatcgcgaggggcaagcaactagtggtcgttggtgac ccgaaacagctaccaccaaccagtttctttgatcgaagtgccgacggagaagatgacgatgatgcc gcggctttaagtgatactgacagcattttggatgctgctttgccactgtttcctatgagacgtttg cgttggcactatcgttcacgacatgaaaagttgattgcatactctaaccgccatttttataacagt gatttggtgatattcccttccccaaatgctgagtctccagagtatgggattaaatttacctatgtg tcaaaaggtcggttctccaatcaacacaatattgaagaagcccaagcagttgctgaggccgtactt catcatgcgcatcaccggccgggtgagtcactcggggtagtggccatgagttccaagcaacgcgat caaattgagcgcgctatcgatgaattgcgccgaaatcgccctgaatttaacgatgcaatcgatggc ttacatgccatggaagagccactttttgtgaaaaaccttgagaacgttcaaggggatgagcgtgat gtaatctttatttcctttacctatggaccttctgagcatggtggaaaggtttatcaacgctttgga cctatcaattccgatgttggctggcgtcgcttgaatgtgcttttcactcgatcaaaaaaacggatg catgtgtttagttcaatgcgttctgaagatgtattgacgagtgaaaccagtaaacttggtgttatt tcgttgaaaggttttttacagtttgccgaaagtggcaaactagattccctcacaacgcataccggc agggctccagatagtgactttgaggttgctgtaatggaagcactcaatcacgctgggtttgagtgt gaacctcaggtaggggttgcaggattctttattgatctagctgtgaaagatccaggttgtcctggc cgttatttaatgggcatagagtgtgatggtgcggcttatcactcagctaaatctgctcgtgatcgt gaccgtttgcgtcaagaggttctggagcgtttgggttggagaattagccgcatttggtccactgat tggttcagtaatcctgatgaggttctatctccgattatccgtaaactccatgagcttaaaacattg gctccagacgttgttgtaccttcctatgaatatgtcgaaacgattgagtcaagcgctgaagtggcg tctgactcaattgattctcttatgcccaatttggggcttaaggagcaacttaagtattttgccaca catgtcattgaggttgagcttcctaatgttgatgctgatcgtcgtttgttgcggcccgcaatgctt gaggctttgctggaacatcagcctttatcacgttccgagtttgttgaacgaatacctcattatctg cggcaagcaacagatgtatacgaagcacaacgctttcttgaccgagtcttggcattaattgatggc gcagaggctgaagcgaatgatgcagcgtttgagtctgaattggcataattagttaaaggtaataag aacagtgacaactgtcgg(SEQ ID NO: 295) 53 24 atgatgaagatcacctaaaatgataggttgtttttatacagtaccaaattcaattttctctctata 54 agatagattgcatttccgcggatgtagtttacaagggaaagacggtcaacatgcatcgcactattt 55 ctgagttttatcgcattccccctttacttattcgggcgctaaaaagtggaatttcctccgtggtgg 56 agtttcatctcaacaggggattacccaaagattcacgagattctctgggaaacagcccattgatga 57 ttgcggcccagtatggacatttcgctatttgcgaaatgttgttgagtgcgggtgttgatgttgaac atcaaaacaacctcgggcttcgcgctagtgaccttgcgcaggagcaaaaattgcgtgatctgttgg cccgttatcgtcagcctctttcacttgccgaactggaacgctctgtggtttcagtcgaggactcag aaacagaggcagaattacccagcgctgaaatcccgatggattttatgctgtgggatgcagaagttg aattgaagcccgccgaagataatctgacgttaagacatgcttccgctgaagcccagcaattattat cacgctatcgcccgaaagataactctgctgagtggagcgatatcgaactcacgctccctgaaccac tgacgccagtttctcactctccgcaaaattaccctcatctctcaacgttgctcattggcgcactgg atacggggcgtatctctttgcgtgacatctggcatgccggggaagaggatttcggtatgcagtggc ctgaattccggctcagcgtagaggcattgatcagggacttaccgctgattgtggatgacgatgata ttattccgcctgacgctgctccggcgacattatcggtgagtgaacctcttgaaccctggtttgatg ctttcaatgcattgcggcagttcggcatcgttgaaaactatctcgtggatatccgccagtgggatg tcgtggataaaacaaaagaagaacgactcggccagcgcatggatacggcgctaattaatctgataa gaatcctggcgggtttatccgaagcggaatatatgcagttgctgcagcccaattaccttccggagc cagcgcctgagatttctgaagaggaagacgtcgcagaagaagcggatgaggaaatgcctcccgtat ccgatgacgatgacgataacgatgacactatcagctttatcgagcttcttgttctgctgagaagtg ggaaagcaggcgagtatcaggataatcatatcccccgcccggagtatgccgacctgcaacagatag ttgagcgcgcccgaacgcttatccctgatgaaggtcataaaataagtctgtatgtcagcagttaca gagaggcttgggaggggctgatccacgccaacttgcgtctggtcgtcaccatcgcgaataaatatc gcgggcggggattagatgtcgaggacctgatccaggaaggtaatctgggtttgatcaaggccgttg aaaaattcgactatcgacgcggatttaaattctccacgtatgccacctggtggatccgccagaaga tcagccgcgcgattgccgatcaggcgcagctcatccgtttacccgttcacttctatgagcaattca ggcgctggcgaaacagtcgggatcaattgctgtatcgccaggggataacgcccacgatcaaacggc tgcaagcattgactgaccttccagaaaatcaactcaagcggatggcaaaatatgaagaacagacgg tgttgattggcgattttcatgatgacgcccaggacagcgaagcggcgctgtcgggagacgcgatcc tgaccggaaaggatttcaccagtgctcccgttcagtctctcgagctaagagaatgtgtttcattgg tgctggaaacgttgttgccacgcgaaaaacagatcataaaaatgcgttttggcatcggtatgacgc aagatttcacgctggaagaggtgggtaaacagtttgatgtcacgcgagaaaggatacgtcagatag aagccaaagcgctccgtaagctccgctatcacagccgggcgtcgaaattaggcggcttcgtcgaac agtgggaaaccgcgttgagcgagatgcaggaagaagaagaatgacgaccatgcgccatgcgccacc gaatgcagccattatgatcgaagcgctgcgagggctcggttacaacactgccaccgcactggctga catcatcgacaacagcattagtgccggtgcccgtaaggtcgatctgacctttcactggcgtgagtc ggatagctatatcgtggttcgggataatggttgcggcatgtcggccgctgaactggatgttgcgat gcggctgggggtcaaaaacccgctgacaaagcgttcaggacacgatctgggccgcttcggtctggg actcaaaaccgcctccttttcgcaatgtcgccgtctgacggtcgcctccaaaaaagaggagataac gaccatcctgcggtgggatctggacattctcgccgccagtacggacgacggttggtatttgcttga aggcgctgacccaggaagtcaggaggcgttagcaaatgaggaacctgactcccacggtacggtggt gctgtgggacgttttagaccgaattgtcacccccggctacggtgagaaagatttcctcaatctgat ggatggcgttgaacaacatctggcgatggtatttcaccgattccttgaggggaacgctccccgact cactctcaccctcaatggtcgcaaaattaaagcttgggatccctttctcagcgggcatccttccaa gccctggcattcgccttcggcaatggcgccaggcgctcctgccgtgaaggtggagtgtcatgttct gccgcatcaggatcacctgacgacgcaggagtatcaacaggctcaaggaccggcaggctggacggc ccagcaaggattttatgtataccggaatgagcgattgctggtggcgggcaactggcttggactcgg aagcccccgggcctggacgaaagatgaaacccaccgccttgcgcgaatccgtctggatatccctaa tgatgccgacatagactggaagattgatattcgtaagtcgatggcccgcccaccggtttcgctgcg gccttggttaacccaactggcgcaatcaacgcgtgatcgtgcggtacggacatttgcaaaacgcgg gaaaatgaataagcgcaagcccggcgaggaacttgttcagctctggcaagcgcagaagacgccatc cggtgttcgttatcagatttcgttacaacatcctgttatcagcaatgtcctttcgcaggccggtga gttatctccacaaattcaggccatgctaagactgattgaggaaaccgttccagttcagcaaatctg gcttgatacggctgagacaaaagagacgccgcggacaggttttgaaactgcaccgcccgcagaggt gttgtccgtattgcaggtgatgtaccagactatggttggacagcaggcgatgtcaccggcgctggc gaaacagcacctgcaaaatatggaacccttcgataattatcccgaattaattgcactactccccga cgatcaacatgagaaatcgctatgagtcttaatcccttggatgacacgcaactgagtgtattgcag attgtgcaaacgttcctgcaaagtcaggataaaagcacgatcacgcccggtattctgcgccaacat attgatatggtttgtcagatgaaacctgagtggagccgccttgatagtcgggagatcctggtcgaa gagttgatccgccgttacagcatctggatgggagaagattcttctctgagtaatgacgaagggcat caaccctggctgaccgctgatgcgaaacgcgagtggcgctactggcatcgatatcgccagtggctt ggcaaaacgatgccttggggagtcctggatacccttgaccgttcaacggatcgtgttctgggatta cttgagcaaccggggcgggaagggcgttgggaccgacgtgggctggtggtcggccatgttcagtcg gggaagaccagccactataccggtctaatctgtaaagccgcggatgcgggatataagataatcatt gtgctcgctggtttgcataacaacctccgctcgcagacccaaatgcgtcttgatgaaggatttctt ggttacgagacgagcccactcagagaaaaagtgaccatcattggggtgggcgctattgatagcgat cctgtcattcgtcccaactacgtcactaaccgatctgaaaagggcgacttcagcgccggagtggct aagaatctggggatcagccccgagcaacggccctggctgttcgtagtaaagaaaaataagtctatt ttgaagcgcctgcatacctggattgagaaccatgttgccaccagcgttgaccccatcaccggaaag cgttttgtttcggaattaccgctgctgatgattgatgatgaagcggataacgcctcagttgatact ggggaaatcgtctacgatgacgatggaaaaccggatgctgaacatcagccaacggcaataaatagt ctgattcgtaagctgttgatgcagtttagccgtaaggcgtatgtcggatataccgctacgcccttt gccaatatttttattcacgagagcaatgaaacacgtgacgaaggtccggatttgttcccttccgcc tttatcattaatctcggcgcaccctctaactacatcggccctgcgagggtatttgggcgggccacc gcggaaggccggagcggagagtttcctttgattaggcgagtgagtgatcactgtagcgatgacgga aaaagggggtggatgccggtttctcataagagttcgcactatcccacactggatacgctaactcat ttcccggactcgttaaaacacgctatcgacagttttttactagcatgctgtgtcagagaattacgc ggtcagggagagaaacacagttcgatgctggtccatgtgactcgcttcaataaggtgcaatcggtt gtttatgaaaatattgatgcctacattcaggacgtgaggcagcgactgacgcgaaggattggacac gaaccttttttacatcagcttgagtcactctggcaggccgattttttgccgacgaatcaggcgatc cgcgaagttatgccgcagcaggttccggacgacgccttcgaatggcaggagatcgtcgacaagctg tataccgtgatagaaaacgtgtcggtacgaatgataaacggaacggcgaaggatgcgcttgattat tcggacagtgcgacaggcttaaaagtcattgcgattggcggagacaaactggctcgagggctaacg cttgagggattatgcactagttattttttacgcgcctcccgcatgtatgacacgttaatgcagatg gggcgttggtttggttatcgccagggatatctggatgtatgccggctttataccaccgatgagctg attgaatggtttgagcacattgcggatgcgtcagaagagctgcgggaagagtttgacaatatggtc gccagcggcggcaccccacgtgatttcgggctaaaagtgaaatcacaccctgtgttaatggtgacc tcgcccttaaaaatgcgtagcgcgcgttcactatggctctctttcagcggcacagtggtcgaaacg atttcgttgtttaaagaacaggagtatcacaagcgtaactacgtggctttccagcgtctaaccggg cgcgtcggtgctggcgcgccgatacctgagagacgacgcggagataagattgaaaaatggaatggg gtcatttggcaaaatatctcccctgagccgatcatcgatttcttaacggaatatgagacccatgct caggccagaaaagctaacagcaaactactggcggattttgttacgcggatgaatcgcgttgatgaa ctcacccaatggacggtggcggtgatagggggtggcatcgatcgccatcacgatgtttgcggcttt tccgtaccgcttatgatgcgtaaagcgtctgaaggggtcactgaccgttattccattggccgttta ctttccccacgcgatgaagggattgactgtgatgaatcaacttggcttgctgcgctggaagaaacg cagcgtatttttcatgccgatcccggacgcaatgaagggcgagaggagcccgtcgttccaggtggc gtggtactgcgtcggattaaaggatttggcattaacgacattccagcacagcgtcaaaaaggttta ttgctcatttacttactggacccgcagcaggcattgtcggcagcggaatatcaggaagatgcctta cctgtggtggcttttggcatcagttttccgggaagccgcagtggggtaacggtggagtacaaagtg aacaacgtactatgggagcaagagtatggtgcggctgagtaaagacgatctgctggcggcctggaa agccttagatcgatctcagatagacgaactgcctggcgctcagggctggcgcgggattcggctttt tacgcaccagggctgtagctttcatgccgggcgtcgtcagcctgataatgaagaaatgctgattgc cgtgtttcctcatcctctttcgcctgggtcggcggcgctgccatcttgtaaaggattccgcgttga gatggccggaacagaggagggggggcagaacggtttgatgatccgtcgccagcaaacagggaatgt ggatgtctttacgacgatgattctggatattctccattcgctcctgaacgtttcgaaaccgcgcct gtttgaaactctgcttcgtcggattcgtttatggcaggcgtttatggagcgcgatacccgtccact cagtcaagaagaagaagttgggttaatcggcgaattgacgtgtctggagcggttgatcgagagcgg tcttgctccgtcaacggcagtcgaagcatggataggaccgcagcatgggctacaggattttgcact cgatgaacgcgccattgagataaaaagcactacggcagcgaagggtttttgcataactatccactc tcttgaacaactggactggcagcgggcaggatcgcttgtattgtgtggtttgcgcttcagcgagca tcccaccggcgcaaccctgaatgacatcattagccgtcttcgtcaacggtttgagggaaacgctac ggcggcttgtatttttgagggatcactttgtcatgtcggatatttcactgaacatgctgaattcta tacacgtcatttcttgctgacagaggcgttcgcactccccattgaagcggattttccctctttgac gcatgccaatgtcccgttgccggtggtgagtgcgcgctatcaactcgaactccagacacttattcc tcaggcccaagattttaaccattgcttgtcagactttgcaggattaccgcatggaaattattgatt ttttacgtcaaacccagaatgagattcgcaaggaatatcaggatcaaatggctcagccaggggttg agtcgccttttccggagctgatttttaccgatattgttatgcgtcatatggccgatatcggcatga cattcgatgatgccgagacgtgtcactttatggcgaaagtcagtggacacaatgtgcgtctcagcg gttatgccttctcagaagatggcgatcaacttgacctttttgtcagtatttatcacggtagcgacg agctctgtcacgtcccggatgctgagacaaaagcgattgccggccactgcattcaatttttgcaga agtgcgttgacggtaaattatcatccacgctcgatcagtccaatgatgcctggcaactggtgacga ccatcgaacagtcctatgcggaactggagcaaatcagaatttatgtactgaccgatggtcaggtga aaacccgctggtatcagtcacgggacgtggccggtaaaaccattaaattagaggttatggacattg tccgtttgtttaaccactggcaggaaggtaagccacgcgatgaactgcaggttaattttgatgagg tggctgggggggcgcttccctgtgtctggatcccggatgaaatgggtgagtacgattatgcgctga cggtggttccgggagagacactgcgatttatctatgaaaaatatggcaaccggattctggaagcga acgttcgctcgtttctgagtcagacggggaaagtcaacaaggggattcgtgacactttacgtgagc agcctgagcgttttatggcttataacaacggcattgtgattgttgccgatcaggtcaggcttggtg aagcaccgggaggtggccctggtattgcgtggatgcaggggatgcagatcgtcaacggtgggcaga cgacggcttccatgtttttcaccaaaaagaaatttccggcaaccaatctgcgtaacgtgcgtgtac ccgcaaaagtaattgtgctgaaacagacgaataatgcacaagaagagatgttaattgcggatattt cgcgcttctcaaatagccagaataaagtcaatatttccgatctgtcagccaatcgaccagtacatg tacagctggaaaaaatggcaaacacggtgtattgcccggacggatacagtcgttggttttacgagc gagcaaatggcagttataaggttatgctggaacgagaaggtaaaacaccggcgggcattaaacggt taaaagacgcaattcctccatcccgtcggataacgaaaacggatttcgcaaaatatcactgtgcct ggctccagcgtccggatttagtcagcctcggtgggcagaaaaactttgccgcattaatgacgatga ttgacaaggatactgagcgttatggggatgaactgaacattgaaacttttaaaaattacattgcac aggctattatttataaaaaagcctataagttgattaattcacttttccccgcatttaaggcgaata tcgccgcctatactgttgccgcctattcacatctttatggtaacaaaacggatctggcagagatct ggaatcaacagggtatcgaggaaactatggggaatcgtcttgtcagcttggctcaccgagtaaata gccttctgactgaatcggcaaatggcaggatgatttctgaatgggcgaaaaagccggagtgctggg actacgtgcgcagtaaaatctatttctccgcacagggaaaaaaggatgacttctcgcatggtgaaa ttgcatgatgagttcagtatcaacatgatatgtgagtattactgacgtatggcagcggttgttttg tatggatgtgctatggcatcgcatcaatatacaattaacagctg (SEQ ID NO: 296 58 25 cgtgatgaatgaagcggctaaatacattaatgataattataatttaattcattaaaatcagtaata 59 tataaatataaaagttgtgaaatgtgatattcgtcaaagcatgtcaaaaagttttgactgttcttt 60 aggcatcattcgcaattgtctaacaacttgataggataggaacaatctcaaaaaggaaaatgacat atggcatacgaagctcaaatcagccgtactaatccagcagcatttcttttcgtcgtcgatcagtca ggttcaatgtccgacaaaatgtcttccggccgaagcaaggctgagtttgtcgccgatgctcttaat cgaactttaatgaacctaatcactcgctgcactaagtctgaaggcgtacgtgattatttcgaaatt ggtgttttgggttatggcggtcaaggggtttctaatggtttctctggttcactgggaggacaagtc ctcaatccaatttctgctctcgaacagaatccagccagagtagaagatcgcaaacggaagatggat gatggagctggcggaatcatcgagacagcaattaagtttccagtatggttcgatcctattgctagt ggcggcacgcctatgcgtgaagccctgaccagagccgccgaagagttggtgacttggtgtgatgcc catccggattgctatcctccgactatcctgcatgtgactgacggcgaatcaaacgacggtgacccg gaagagattgccaatcatctacgacaaattcgcaccaatgacggtgaagttctgattcttaatatc catgtcagttctctcggaaatgatccaatcagattcccctcctcagacactggcttaccggatgcc tacgctaaactgcttttccgtatgtccagccctcttccggaacatctggtgcgtttcgcgcaggaa aaaggtcatacggtcggtatagaatctcgtggattcatgttcaacgctgaggctgccgaactcgtc gatttcttcgacatcggaacccgcgcttctcagttgcgttgattcagcaatgaaactggagttctt agggacagttccgaaagatcctgaataccctaaggcgaatgaagataaatttgccttctccgaaga tgggagaaggctggcgctatgtgatggcgcgagtgagtccttcaactcaaagttatgggccgatct tcttgctcgtaaatttactgcagatccgaaagtaaatcctgaatgggtagcatctgctttagcgga atattctgccacgcatgacttcccttctatgtcctggtcccagcaagcggcattcgaaagaggcag ttttgcgacactaataggtgtagaggaatttgaagagcatcaggcggtagagattcttgctattgg agatagcatcaccatgctggttgattgcgggaaactcatttgcgcatggcctttcgataatccaga aaaatttaatgagcggccaacactgcttgctacgctgtacgctcataacaatttcgtcggtggaag cactttctggacacggcatgggaaaactttttaccttgaaaaactcacccaacccaaactcctctg tatgacagatgcgctcggcgaatgggcactgaaacaagcgctggcagaggattctggttttatcga attactttcgctgcaaactgaagaagagcttgcagagttagttctgagagagcgtgcagcaaaacg tatgcatatcgacgactcaacgctgcttgtactatcgttttaacgcggaaagtaaagatgccttac ccatctcttgaacaatacaaccaagcgtttcagctacatagtaagctgctaatcgatcctgaattg aaatctggtaccgttgccacgacagggttgggtctccccctagccatcagcggtggctttgcactg acctatacaatcaaatcaggcgctaagaaatacgccgttcgttgctttcatagagagtcaaaagcc ttagaacgccgttatgaggctatatccaggaagatttcaagccttcgctctccctactttctcgat ttccagtttcagccccaaggggtcaaagtcgaaggaatatcataccctatcgtcaaaatggcatgg gccaagggagagacgctaggagaattccttgaggtcaacaggcgttctgcacaagcaatagcgaaa ctatctgcatcgattgaatcacttgccgcctaccttgaaaaagaaaaaattgcacatggtgatttc cagactggaaacctgatggtctccgacggaggtgcaaccgtccagttaatcgactatgacggcatg ttcgttgatgagattaagacattaggaagctcggagttggggcatgtcaattttcagcatccccgt cgtaaagcaacgaatccgttcaatcacactctggatcgtttctcactaatttcactctggctggct cttaaagccttgcaaatcgatccgtccatttgggataaatcaaattcggaactggatgcaatcatt tttcgagctaatgactttgtagaccccggttcatcttccatcttagggatgctatcgggaattcaa cagctttccacccatgtaaagaattttgccgcagtctgcgcttcagcgatggaaaaaacgccttcc ctcggtgacttcattgcaagtaaaaacattcccatatcgctagcttcgatcagtatgaatggggat attccagtcagcaggctgaaacccggttatatcggtgcctacaccgtcctgtcagccttggattac agtgcttgccttcagcgagttggtgataaagttgaagttatcggaaagattattgacgtcaaactc aataagacccgaaatggcaaaccatatatctttgttaatttcggagattggcgcggtaatatcttt aaaatatcaatatggagtgaaggcattagcgctttaccttcaaaacccgatgcctcatggataggg aaatggattagtgtaatcggccttatggaaccgccttacgttagcgggaaatacaaatattcacat atctcaattacagtaacgactatcggtcaaatgaccgttctttcagaaccagatgcccgctggcgt cttgctgggccaaacgaaagtcgacaaacattaacttctactagcagtaatcaggaagccttggag cgcattaagagtaagagcaccacttcaactcctatgcccatgaacactaacgccacaactgcaaat caggcaatccttaacaagttacgggcttctacgcaaactgtagcggcagcaagagcgcaaactcag catgtagtacctaataaatcatcaacgcattatgtggcaccgacgggaacatcagcttcgcagcca gttcaaaatattccgagccctgctagtacctcaaagcagcaaacctctcaaaaaaatatagttaca aagattttgaaatggctttttggatgattggtacttgtaaagaacaagcgcaatttcagtggccgt atcacttgcgcttgaggtgcctgcgggtatgatcttgcgacatacaccactaaaacgaattcgtgg cggcacttttagcctgcccctgtgttttcccgaggatttac (SEQ ID NO: 297) 61 26 gggctgtttggttgaattaaaaatacgaactaaaaccaacaagagtcggaaaaaacttcaaaatgc tgcttatggataatagtcatcttaaaaatgtacggaaaaagagactaaaatcagaaaaacatctgt tatacattgacttaaagtcatcatctccgctatgagtcctcaatccaagttgacaaatgtttagcc aggagttcccgtgaacgagcatctctctcatatggatgtacataccttgtttgaagaaatggacga gcaggctgatggaataacgtttaaatactcatttgatgacatagcaaagagcaacgcattggttgt cactgagtttgtcaattttgagcgtgacagcacggtagctttactcgccagccttcttactctccc ggcacaccaatctcagtgtttgcgctttgagcttctgacgagccttgcactaattcactgcaaagg tcagcagatagcaaatatcgatgacgtgaaacgctggtatgtcactattggggagtcgagtagtat cgttggagaagatcctgctgaggacgtcttcgtcgcccttgttgataataaaaaaggtgattaccg tgtgctagagggggtttgggaggcggcaggtttttatacacaattaatggtcgaaattgtatccga catgccggatacgcaccgctatcgctcgctgaaacttgctatacaggcaattctccgtctctcaga tgtcatttgtgctcgctctggcctttatcgttttcaggaaggcgcagacgaattccctgactctct tgacaccgctggtcttgatgagaaaacgctctgttcaagggtaacgttgtccgagcgttctcttcg agctgaggggatcaaacttgctgacttagcacctttcattcttgaaccttctcatataagtatgct tggaaatcaggtccctggggagggaatgcttgaacaacggccattgctccgcacacgcgatggtat tgtggttgtacttcctaccgccatgaccattgcacttcgccaggcagtgataacatttgcaaagcg cacagaagaattgagcgagctagacaaagcgttagctaacgtctacagccttactttctccgagat gccggtcttcggtaatggaggaaggttaagaagactgacatgggagaagtacaaaatgagccgaac aacgatggtaacctccatcgtggatgctggtcatttgatggtacttcagttcgttttgccttccat acagcaatatgccgataccggtttcaacaacttgctacagctagatgaagagaccacgcaatttct agataactctgttgaacaaattacagttgacctcgccaaacaacccggctttcagcgtggcatcgt cgtgcgcattgcatgtgggtggggggcgggttttatgggggtccctccccaactgccagatggttg gggatttgaatggatgtctggtgcggactttgtccggttcggggcattacccgatatgtcaccaat tgccttctggcgtgtgcaagacgcagtcgaaacgatcaggcaagctggtgttcgattaatcaatat gagcggaactctcaatcttcttgggtggatacgtgccaatgatggccatatggttcctcatgacca gttaccagatgaccgtatcacaccggaacacccgctaatgttaatgattcccacgaatttactccg tggtatacgaatagcggcagacacaggatatgaccggcatcgcattagtgacaacaatggtaaatg gcatcgagtgatgaggccttcggcagaagatttctttcccaccgagcgtcagagcaagtgctacgc atcaattgatgatcttgaagcgcaacggctgacctgtgtatatgaggggcagggtaatctttgggt aacgctcgaagctccagaaatggaagattggatgctcctcgttgagcttgccaaaatggttcgaac atggattgggcggattggcgaggcactggaggtcttgagtgagcaaccaataaaaaaatcattaaa ggtgtatctgcattttgatggtaacgacaatatcggcagatttgatggtgagaatttttctgatga tatgaatacattttggcgacttgaacgaatccatgagcatggggcgattcgtgtggttcttcaaga tgggtatcttgcaggttttcgtctaccggataaccgtgcagaacgagctctggtgcgcgcactcgg tacggcgtttgccacacttcttcggatgaaagagccagtagacaaaggggtcactgttgagcagat agcggtgcccaatgacagagcgcgcagcttccacataatgcaggcttatgacttcaaccaatattt aggccgttcactaactaaacgtcttttagctattgaagatatcgactcagccgcagcccgaattga gctagcatggcgtgctgtttcgacagatgcaccatcacgatatcagggtaaaaaggaagttggaaa gctccttaatgatgtggttgatgtgctgatccaagacttactaagcgaactttcaagatttgaccg taaacagacagtaatgcgattacttgaaaacgttgtaaaggcacgttgtgaagaggcgcactggcg tagtactgcagcagcggtccttggcttgcatgcaggagaagagggtgtcgaagagacgatagctca agaaatgagccgttatgcgggcgcagcgttaacttcccggctaatcattgaacttgccatctgtgt gtgcccgacaagcggtggaattgaaccttctgatatggcactcagtaaacttcttgcacgggcatc actgctttttcgcataggtggtatgtcagatgccgtacgtttcggtgctttgcctgctgatattcg catctcccccttaggtgatctcctctttcgcgatgaactcggcaaaatggtgcttgaaccaatgct ttcaaaagttactaacgaacggtttgaggaacaagcggcacaattcgagcaacactatgtgaaaac tgccggaggggatgatgagaatagcaaacaagatagtgttgcggctgaaaccaccgaggaccaaac cgatattttccttgcattctggaaagcagaaatgggcttcactctcgaggatggaatgcgatttat ccagttccttgagtccatcggaatagagcaagaatcagcaatcttcgagatgcgaagaagccaatt agcggatgctgctaaatcggctgggctcgcagatgaaactattgatgcgttcctcaaccagtttat ccttagcgcgcgtccgaaatgggatgtagtgcccgatggatttgacctttctgatatatatccctg gaggtttggccgacgcctttcagttgctgtacgtcccttgttacagattgaagagagtcacgatcc actaattgttatcgcaccaggactcttgaatctgtcccttaaatacgttttcgatggcgcatacac tgggcaatttaagcgtgacttctttcgcacagagggtatgagagacacttggttaggtggagcgcg ggaaggacacacattcgaaaaaactttggagagagaacttcgtgaaataggctggacagttcgacg tggcataggctttcctgaaattcttcgcaggaatctaccaggtgatccgggggatattgatcttct tgcctggcgctcagaccgcaatcaagttctcgttatcgaatgtaaggacctctcacttgctcgtaa ttactcagaagttgcctcgcaactatctgaatatcaaggtgatgacataaagggcaaaccagataa actcaagaaacaccttaaacgcgtattactagccaaagaaaacatcgataattttgccaagttcac ttcgatagcgaatcccgagattgtatcgtggctcgttttcagtggagcatctcccattgcctatgc tcaatccaagattgaggctttggcaggaactaatgttggccgcccaagtgatcttctgaacttttg atagatatgctgtgcgataagacgccctggcaactaagttaatcgttcctactactgatagtttta aatcaagg (SEQ ID NO: 298) 62 27 gatggactggtactgtagattcaccgtggaccagcgaatctattatgtggtgagcagaacattaac acatcaatgtaacgccgtaatcattgagtctttgccggggacgcttgacatctccgaaagaattat atcgtgagtcttaaggggaatctcttgcttccggttatacatttaaccggatctagctataagact gttacatctattgggattaggtcaggacagatagcctgaaagcttttatagtgagggacttcagaa ataccctagaaaaggaactgttatggtaggttcgcgctggtataaatttgattttcataaccatac tccggcttcgcatgattacaaaattcctgacatcagccccagagagtggcttctggcttatatgaa acagcatgtcgattgtgttgtaatcagcgatcataacagcggagcctgggtcgacgtgttgaaggg tgagctggagaatatgtcccgggacgccagcaccggcgacctgccggaatttcggccactgacact ctttccgggggttgaactgacagcgaccggtaacgtacatattctggctgtgctgcacacgcacag tacaagtgccgatgtggaaaggcttctggcccagtgcaataataatagccccattccgagtgaagt ccctaaccatcagctcgttcttcaactgggccccgccggcatcatcagtaatatccgccgtaatcc gaaggctgtttgtattcttgcgcacattgatgcagccaaaggtgtcttaagtctgactaatcaggc agagctcaccgcagcctttcaggaaagtccccatgccgttgagattcgacaccgggtggaggatat caccgacggaacccgccggcggctgattgataatttaccgtggctacggggctctgatgcgcacca tcctgaacaagccggcgtgcgaacctgctggctgaaaatgtcatcccctgattttgacggactcag gcatgcactgctcgatccggaaaactgtgtgctgtttgatcagctccctccggaggaacctgcgtc atatttgcgcagcctgaaattcagaacccgccactgccatcctgtgggtcaggattcggcctcggt ggaattcagcccgttctataacgctgtaatcggctcaagaggcagcgggaagtccacgctcattga aagcattcgtcttgcaatgcgcaaaacagaaggtctcactgcgacccaggggagtaagctggacca gttcattcggacggggatggaagcggattccttcatcgaatgtattttccacaaagaaggcacaga tttccggctcagttggcgaccagacagtaagcatgaattacatatcttcagtgacggagaatggat gcctgacagtcactggtcggctgaccgttttccactctcgatttacagccagaaaatgctctatga gctggcttcggatactggtgcattcctgcgcgtctgtgatgagagcccggtggttaacaaacgggc ctggaaagagcgctgggatcagctggaaagggaatatctgaatgaacaaatcacgttgcggggcct gcgtgccagacagggaagtgcggattcgctgcggggggaattatcggatgctgaacgtgccgtcag tcagctgcagtcaagcgcctattatccggtttgcagacagctggccctcgccagaaacgagctgtc cgcagcaaccttacccctggagcactttgagcggcgtattgcagccattcaggctctggcagaaga accgctgcagagatccgatatcccgccggaaccttccggtctgctgatggcatttatggcgcgcct gtcatctgtgcaacagcagtatgaccagcggctcaatactctcctggcagaatatgctgcagagct cgcgggtatcaggagagagcaatcttttattgccctccgaacagcagtgagtgaccaggaaacaaa tgtagaaagtgaagctgtttccctgcgggccagagggcttaatcccgatgttctcaacgaactgat ggcacgctgtgagtcactgaaaaatgagctgagaaattacgacggtcttgatggggcgatctctgc ctctgttgcacggtctgagcagttgctggctgaaatgcgtgcccacagaatggcattgacagataa ccggaaggcgtttctctcctccctgtcgctcagcgctctggaaatcaaaattcttcccctctgcgc cccttatgaagatgttatatctggttaccagacggttaccggcatcagtaattttgccgaacgtat ctacgataacagtgacgggagcggattactgagcgactttatcagtgaacgtccgttcagcccgtt gcctgccgcaacagagaaaaaatacagggcgctggacgagctgaaagcgctgcatcacagcatccg gctggataattcagaggctggggcggggcttcatggttctttccggaatcgtctcaggagtctgaa tgaccagcagctggatgccctgcaatgctggtatcctgatgacggcatccacatacgttaccagac ccccggggggcagatggaagacattgcctttgcttctccggggcaaaagggagcgagtatgctgca gttcctcttatcctatggcaccgatcctctactactggatcaaccggaggatgacctggactgcct gatgctgagcatgagcgtgatccctgccatcatgtcgaacaagaaacgccggcagctgattatcgt gtcgcactctgcccctatagtggttaacggcgatgcagaatatgttatcagtatgcagcacgatcg cacaggcctgtatccaggactctgcggtgcactgcaggaagctccgatgaaggcactgatatgccg tcaaatggaggggggagaaaaagcgtttcgttcgcgctatgagcgtattcttagctgaagaacgga accgtccttaaggcggccatgaccggagagtgggcctggcggctgaatgcctggataaaagacgca aatgtcagactgatggcctctgcgtctttg (SEQ ID NO: 299) 63 28 atagaacgatgaaggatggaagctacatattctcggtactaagatttatttttctgacacaaaatg 64 accatttggcgttacataatcccaaaaaaacgtatcaaaaatctcaaaatgcgttacgattagaga gtattttgattctgcgtgctcattttttgattgctgtggctttttgttgtgggagtgttgaatgga ttatttatcagaagtgttaaaaatcattgaaggtgcaacaaaggcaaatgcttcgatggctagtaa ttatgctgggttgctggcagataagctcgaacaaaaaggggaggtcaagcaagccagaatgataag agaaaggttgcttagagctccccaggcgttggcaggagctcaaagggctggaggtgggatatctct gggctcattaccggtagatattgatagtcgactcaacactgttgatgtcagttatcctaaattaga cagttcagagatttttctgcctgcagcaatcagtacccgtgttgaagagtttatcactaatgttca acgttatgatgagtttgttaaagctgatgcagcattgccgagtcgtatgctcgtgtatggaaagcc aggaacaggtaagactatgttatctaagtacatcgctacccgcttagattttccacttcttacagt gcgttgcgatactttgattagtagtttattgggacaaaccagcaaaaatcttagacaggttttcga ttatgtaatgcagaggccatcagtgctttttttagacgaatttgatgctttagctggagcaagagg taatgagagagatataggtgagcttcagcgagttgtcatttcactattgcagaatatggatgcggc atcagaggatacggtaattattgcctcaactaaccatgagcaacttctggatcctgcaatctggag gcgatttagcttcagaattccaatgcctctgcctgacatacatcagagagagttaatttggaaaaa tcgtttaaagaatatgatatgtagcgatctagatttaagtgatttatcaagaaaatcggaaggatt atccggagcaataattgaacaggtgagcttggatgcacgtagggatgcagttattgaaggtgcaag tgtgataaatcaccataaattgtataggcgtttgtatcttgctcaatcgcttatggaaggtgtaaa tttaagcacttacgaagatgaaattcgttggttacgttctaaagataaaaaattattttctatcag agttcttgctaatttgtacaaacttacatcaagagtaatttcaaacattctgaaggagtcaggagc atatgagcagaaggggtacacagtttagtaacgcaaaagttacaaacccaatgttaagaatccctt tttccagtagtgacttgggtgcaatagtaaacgctggcggtggggcaaaggtattggttgatgtaa cagccgaatatagacaagggctagtaagaaatttaacaaccagtaaacattatttagaatccaaac tttcagagtaccctggaagcttgggtactttggttttcaaattaagagaccagggaatagccaaaa cgcataggccgaacaaaattgctcaagaggctggattgcaaaatgccggtcatgccaaaatagatg aaatgttggttgctgctcatgccggctgttttgacgtattagagtcagtcattttacatcggaata ttaaagcgattttggctaatctaagcgcgattgagcgcattgaaccttgggatgagaataggaagg ttccaggaggcactgatggtttgtttgaatcatcaaacatccttgtacgactatttgagtacacag gtgaagatgcaacttacaacaactatgaaaacgttatttctatattagaacaacacggagttaaat atgatgagattagacaaaaatgtggtcttcccttattaaggataatggatttatccccaaatgata gatatatattagacattctcattgattacccgggtataagaacgttaattcctgaaccaaaatatt cagcattcccggttagtgtaagtgattctgttggcattgaaacaaatagctttcccgtaccatcag aagaattacccattgttgctgtatttgacactggggtaagccccatcgcggcaacaattactcctt gggtagtgagtagggaaacatacgtaattcctcctgatacgagttatgaacatgggactatggtgt cttcattgatatcaggcgctcattttttaaatgacaatcatccatggattcctgatacaaaatcta aaatccatgatgtttgtgccttagatgaaaatggatcttatatatcagatttaattctgaggctag cagatgctgtaaataaaagaccagatataaaagtctggaatttgtctttgggaggcggaccatgta atgagcagacgtttagtgattttgcgatggagttagatcggctcagcgataaatttggtattttgt ttgtagttgctgcaggtaattatgtagatgaacctatacgtacatggccaaatcctgatccgcttg gaggtgctgatttaatttcctctcctggagagtcagtccgagcactaacagttggttcagtttctc atatggaagctaatgatgctttaagtgaaattggaacaccgacaccatatactcgtcgtggccctg ggcctgtatttactccaaagccagatataatccatgctggcggtggggttcatagaccttggaatg taggagcaagcagtttaaaggtcgtagggccagataataggctttgctctaattttggtactagtt ttgctgctccaattgtggcaagtttagctgcgcatacatggcagagaatagccactaatacagact ttaatgtttcaccatcattgattaaagcattattaattcattccgctcaattatcttctcctgatt actcgccaagtgaaagacgctatttgggagcgggaattcctaatgaagttattgagaccttatatg atagtgatgataggtttactctgattttccaaacattcttggttcctggggtgaggtggagaaagg ataactatcccataccatcggcacttattcaaaatggaaaatttaaaggtgagattgtaattactg ctgcatatgcaccaccactgaaccctaatgccggcagtgaatatgttcgcgcgaacgtagagctaa gttttggcttaattgagaataatactataaaaggaaaagtgcctatggaaggagaaaacggtcaat ctggatatgagagagctcaaattgagcatggtggaaagtggtcaccagtaaaaattcatcgcaagg catttaataaaggaattacttcgggtaactgggctcttcaggctaaaacaacgttgagagcgaatg aaccggccttaatggagcctttacctgtaactattgtagtaactttaaaatcattagatggaaaca cacaagtttatgctgatggcgtaagagctttaaatgctaataactgggctcactatccattgcctg ctcgtgtgccagtttccgtataacaactatataaatcaaacccgctgtagcgggtttgatttattt gtgggtgtgttttataaaaataccgcccatacacaacaaaatacaa (SEQ ID NO: 300) 65 29 cgtgattcagttcgccagactgcagcgttttccatgaatataactccatctggtttagaaagagtt 66 ccaatctaacgatattgggaccagaatcacaggcggcagtggctttacgcttacaataactattct 67 atcctgacaattttaagcctcgtttgttacgatgtaaccctataactatgtggttcctcaaccttt 68 tttgcccaaaaaatgcccaatgaagtccaaagtggaaaacagatggttatccgttgatgagattgc agattacctcgcgattaagcgagacacggtatacaagtagatcgcaaagaaaggtatacctgcaca catgattggacgcctttggaaatttaaaaaggatgaagtagatggctggatacgcgatggcaaagc tggcgaaaacagtaatcaagaataaaaaagcaaatttaggagcagtttaatgaaaaccgtacgtag tgcatgccagttgcaaccgaaggccttggaaatcaatgtcggcgaccagattgaacagcttgatca aatcatcaacgacaccaatggccaagagtactttaaaaagaccttcatcactgacggttttaaaac tttgctctccaagggtatggcacgcttagccggtaaatcaaacgatactgttttccacctgaagca agctatgggtggtggtaaaacccacttgatggtcggctttggtttattagcaaaagatgctgccct tcgaaatagccacttaggatcaatgccataccaatcagattttggctcagccaaaatagcagcatt caatggacgcaataatcctcattcctatttctggggtgagatcgctcggcagctaggtcgagaggg tgtattcagggagtactgggaatccggagccaaagctcccgatgaacaagcatggataaatatttt tgatggtgaggaacccatcctaatcttgttggatgaaatgccaccatacttccactactacagcac ccaagtccttgggcaaggaactatagctgatgtagtgacacgggctttttccaatatgttgaccgc agcgcagaagaaaaagaatgtatgtattgtagtttccgatcttgaggcagcttacgatacaggagg caaactgattcagcgtgcattggatgatgctacgcaagaactcggacgcgccgaggtatccattac gccggtaaacctcgaatccaatgaaatctacgagattctgcgtaaacgtttgtttttgtctctgcc agacaaaaatgaggtctctgaaattgcgtcgatctatgcatcaagacttgcggaagccgctaaagc caaaaccgtagagcgcagtgcagaagcattggcaaatgacatcgaatctacttacccattccaccc aagctttaaaagcatcgttgctttgttcaaagaaaacgaaaagttcaaacaaacccgtggtttgat ggagttggtttctagactgcttaaatcggtgtgggaaagcgatgaagaggtgtatttgatcggtgc ccaacactttgatctttcgatacacgatgttcgtgagaagctggctgaaatttcagaaatgcgcga tgttatcgcaagagatctttgggactccaccgacagcgctcatgctcagatcattgacctcaataa cggcaaccactatgcacaacaggttggtacgctattgctaacagccagcctctccaccgcagtgaa ctcagttaagggcttaaccgagagcgaaatgctggaatgtttgattgatcctaaccatcagggtag tgactaccgaaacgcattcactgaacttgctaaatcagcttggtatttgcatcaaacacaagaagg gcgcaattacttcagtcaccaagaaaatctcaccaaaaagcttcagggatatgccgacaaagcacc tcaaaataaggttgatgaattaattcgtcaccgactagaggaaatgtatagaccagtcacgaaaga agcatacgaaaaagtactaccactccctgaaatggatgaagcacaggccacactgaggagtggtcg tgccctgttaataatcagcccagatggcaaaacaccacctggtgtagtcggcaacttctttaaggg cttggtaaacaaaaacaacattctggtattaacgggcgataaatcctctattgccagtatagaaaa ggctgcacgccatgtttatgctgttaccaaggcagacaacgaaattacagcatcacatccgcagcg caaagagttggatgagaagaaagcacagtatgagcaggacttccaaactacagtgctctctgtatt cgataagctcctgttccccggtaacaatcgaggtgaagacgttttacggcctaaagcgctggatag cacctatccatccaacgaaccatacaacggtgaacgccaagtcgtgaagactctcacgtccgaccc catcaagctttacacccagattaacgaaaatttcgacgcactgagagcccgagcagagtcattgct gttcggtactttggatgaggcaagaaagacagatttgctcgataagatgaagcaaaaaacacagat gccttggttgccaagccgtggcttcgatcaactcgctatcgaggcataccagcgaggtgtatggga ggatttaggcaatggctatattacgaaaaagcccaagccaaaaaccactgaggtaatcatcagcga ggactcatcaccggatgatgccggcaccgttcgtcttaaaatcggcgtggctaatgcaggtaacag cccacgcattcattatgctgaagatgacgaagttaccgaaagcagcccagtacttagtgataacac gctagcaaccaaagcattgcgagtgcagtttttggcagtagaccctaccggtaaaaaccttactgg aaacccaaccacctggaaaaatcgactgacattacgcaatcgctttgacgaagtggcgagaacagt cgaattgttcgttgccccccgtggcacaatcaagtacaccctagatggttcagaagcacgtaatgg tgaaacctacaccgtgccaatccagctcgctgatcaggaagccactatctatgtctttgctgaatg tgatggcttagaagagaagcgaaatttcacctttgcggcagcaggttctaaagaaataccgatcat aaaagataagcccgccactctggtcagcccctcacccaaacgtatggatagctcggcaaaaaccta cgagggtttgaaaatcgccaaagagaaaggcattgagttcgagcagattagcttaatggttggatc tgcaccaaaggtgattcatatatcgctaggtgagatgaaaatcagcgccgaattcattgaaaccgt attaacgcacttgcaaaccgtgttaagtccagaagcccctgtggtcatgaccttcaaaaaagccta cacacagactgggcatgatcttgagcaatttgttaagcagcttggcattgaaatcggtaatggcga ggtggaacaacgatgaataaaaccgttgattttggggcaccgtcagaattcggtatgcatcacttc tatgtggagattcccgcagcgccccgtgacgctgttgtgatctatgaagactatggctttgacggt gaagattctcgccgagaaacagtagagtgtcgcctgatattagccagagagctctggactaagatc cgcgatgacgttcgccgtgactttaacgctcgcctaaagattaagaaacaaagctccggtacttgg tctaccggtaaagtgaagcttgaccgctttcttggacgtgagttgtgcgttcttggctgggcagca gaacatgcctcacccgatgaatgtctggttatttgccaaaagtggctggctttacgcccagaagaa agatggtggctttacagtaaaaccgcagctgaagcaggtcgtgatgatcaaacacaacgaggctgg cgtaaagcgctctattgcgcgctatcggatggagccaatatcaaattggaaaccaaaaagaagccc aagtctaaaaagctacaagttgaagatgagacccaggatctgtttgggtttatggaaaagggagag ttttgatggccttgcaaccgtttgaatggagagacaaaccgtctcttattgagcacctgttcccgg tacaaaaaatatctgccgagacctttaaagaacgaatggcaagccacggtcagttgctggtgtcgt tgggtgctttttggaaaggcagaaaacctctcatcttaaacaaagcgtgcattctgggctcattgt taccagcaactgacaacccgcttgaagatttagaggtatttgagctgttaatgggcatcgactctg agtcaatgcaaaagagaattgaggcttcactaccagcatcaaaacaagaaacaatcggcgattact tggtattaccctatgccgaacaaatcaggattgctaagcgcccggaagaaattgatgaatctcttt tcgtccatatttggaatcgggtcaacaatcatcttggtacttctgctcacacttttgcgcaactag ttgaggaactaggtgttgcacggtttggccataggccaagagtggcagatgtattttctggttcgg gtcaaattccgtttgaggctgctcgcttaggttgcgatgtctatgcctctgacttaaacccgatct cctgcatgcttacttggggcgctttgaacgttgttggtgcgagcgcgcaaaaaagagtagaaatag acaaagcccaacgggatatcgttaagaaagttcaaaaagagattgatgagcttgacattgagtccg atggccgaggatggcgagcaaaggtattcctatactgcgttgaggtgacctgccctgaatccggtt ggcgtgtgcctttaattccaagtttgattatcagcaatagttttcgagttgttgctgagcttaagc ccgttcctgctgagaggcgatatgatattagtatccgtgaagtatcgactgatgaggaactggagt tctataaatcaggcaccatacaagatggcgaggtaattcactcgccagatggaaaaactcagtatc gcgttaatatcaaaacaattcgcggtgactataaagaaggcaaggagaacctaaacaagctgcgaa tgtgggagaaaacagactttgctcctcgtcctgacgatatttttcaggatagattattttgcgttc aatggatgaaaaaaaaacctaaaggatcgcagtattactacgaatttcgtactgtaaccaatgacg acttaaaacgcgaaaaaaaggtaatagaacatgtcgcatccaaattagatgactggcagaagcaag gtcttgttcctgatatggttattgaagcgggcgataaaacggatgagccaatcaggacgcgaggct ggactcattggcaccatttattccatccaaggcagttgctatttttgagcttggtgaacaaatatt cactcgcagaaggaaaatttaacttcttgcagtgcatgaatcacttgtccaagctaactcgctggc gaccccaggccggtggtggtggcggttctgcggctacatttgataatcaggcgctcaatactctgt acaactacccagttagagcaacaggatctatcgaaaatatcttggctgctcagcacaaccactgtg gaatcagcgagaatgtttcctttgtggttaattcacatccagcgccagagttagatgtggaaaacg acatttatattactgatcccccatatggcgatgctgtcaagtatgaagaaatcacagagttcttta ttgcctggctgaggaaaaatccgccgaaggaatttgcccactggacttgggatagtcgccgatctc ttgcggtaaaaggagaagatgagggtttccgtacaggcatggttgctgcttatcgcaagatggcgc agaagatgccagacaatggtttacaggtgctaatgtttacccatcaaagtggcgctatctgggcag acatggctaatatcatttgggcgagcggccttcaagttactgccgcatggtacgtagttactgaaa ctgactctgcattacgtggtggttctaacgtaaaaggcaccatcatcctcattttacgcaagcgcc atcaggcattagagaccttccgcgatgatttaggttgggaaatcgaagaagccgttaaagagcaag tcgaatcgttaatcggattggataagaaggttcgttcccaaggcgcggaaggcctctacaccgacg ctgacctgcaaatggctggttacgcagccgcgttgaaagtactgacagcttattcccgtatcgacg gtaaagacatggtgactgaagccgaggcaccacgccaaaaaggcaaaaaaacttttgttgatgagt taattgatttcgccgtgcaaacggcagttcagtttttggtgccggttggcttcgagaaaagcgaat ggcagaagcttcaagcggttgaacgcttctatctgaaaatggccgaaatggaacaccagggtgcaa aaaccttggataactatcagaacttcgccaaggcgttcaaggttcaccattttgatcaattgatga gtgatgcctcaaaggctaactctgctcggctaaagctttctaccgagttcagaagtaccatgatgt caggtgatgccgaaatgactggcactcctctgcgagcccttctttatgccttatttgagatatcga aagaagttgaagtagacgatgttcttttgcatctcatggaaaactgcccgaattacctgcccaata agcaactgcttgccaaaatggcggattacctggctgaaaagcgtgaaggtctaaaaggtaccaaaa cgttcaaccctgagcaggaagcaagcagcgcgcgtgtccttgcggaagccattcgaaaccagaggt tgtaatctatggcgattaagcgcttttcatcccgcacagaaagattagatacggaattcctcgctg aatcgttgaaaggggctgctaagtatttccggattgcgggttatttcaggagctccatctttgagc ttgtaggcgaagagattgcaaagattccagaagttaagatcatctgtaattccgagcttgatctgg ctgacttccaggtagctactggccggaatacagcactcaaagagcgctggaatgaagtggatgtag aagctgaagcgctactgaaaaaggagcgctaccagattttggatcagctattacattcgggtaatg ttgagattcgcgtagtccctagggagcggttattccttcacggcaaagcaggctcaattcattatg cagatggcagccgtaaatcttttattggctcagtgaatgaatctaaaagcgcattcgctcacaatt atgagcttgtttggcaagacgatgatgaagaaagtgcggactgggtagaaagagaattttgggcac tctggactgaaggcgtcccgctgcctgatgcgatcttagctgaaatccaccgtgtatctaatcgcc gggaagtaaccgttgatgtattgaaaccagaggaagtcccagcggcggccatggcagaagcaccta tctaccgtggaggggagcagttacagccctggcaacgctcgtttgtgactatgtttctggaacata gggagatctatggcaaggctcgcctactattggctgacgaggtgggtgttggtaaaacgctatcaa tggcaaccagtgcattagtcagtgctttactagacgatggacctgttttgattctggcaccttcta cactcacgattcagtggcaaattgagatgatggacaagctcggtgtgcctgctgcggtttggtcct cgcagaagaaagtttggctgggtgtagaggggcaaatactctcacctcgaggtgatgcctcctcta tcaaaaaatgcccttatcgaattgccattatctctaccggactgattatgcatcagcgggagaaga ctgactttgttaaagaagctggaatgcttctgaagaatcgtttcggtaccgttattctggatgagg cgcataaagcccgtattcgtggaggattaggagatcaagcttcagaacctaataatctcatggcct tcatgctgcagatcggcaggcgtacacggcatctggtactgggtactgcgacacctattcaaacca acgtacgtgagttatgggatttattgggtattttgaactctggtgctgaatttgtactaggcgatg ctctgtcgccatggcatgaccatgaacaagcgattccgttgataaccggccagactcaggtgacat ctgaggctgaagtttggcattggttaagcaaccccctgccgccaagcaatgagcaccatactgttc agcaaattcgtgactacctgtccattgataataagtcctttggatattctcatcgtttcgaagatc tcgactatatgattcagagtctttggctctccgaatgcatgacacctagcttctttaaagagaaca accctatcctacgccatacagtgctgcgtaagcgtaaacagctggaagatgacggtctgttagagc gtgaggggtgaatacacatcccattaagcgcaacctagctcagtatcagtcgcggtttgtggggct tggcattccgaccaatacaccattccaggtcgcttacgaaaaagcggaagagttcagtaagttgct tcagtcacgcactcgagccgcaggcttcatgaaatctttgatgttgcaacggatctgctcaagttt cgcatcaggcttaaaaactgctcaaaagatgttgaaacatacggtttctgacgaagacgaggatct agttgaagatgttgagcacttactttcagaaatgactcctgcggaggtcgcttgtttaagagagat tgaaacacaactgtcacgccccgaagccgttgactcaaaactgaacacagtgaaatggttcttaac ggaattccgtaccgatggaaaaacttggctggaacacggctgtattattttcagccagtattacga cacggcggagtggatagcgaaagaactggccaagtccttaaaaggcgaagtggtagccgtttatgc tggcgttggtaaaagcggcttattcaggggcgaacagtttaataacgttgaacgcgaattgattaa atccgcagtgaagacgcgcgagattctattagtggttgctacggatgccgcctgtgaaggcttaaa cctgcaaaccttgggaacactcatcaatgtcgaccttccctggaacccatctcgtttagagcagcg cctcgggcgaatcaaacgttttggtcagacacgtaagtttgtggatatgctcaatcttgtgtacag cgaaacacaagacgagaaagtttataacgtgctgtcggaacgcttacgcgatacatacgacatttt cggcagccttcccgatacgattgatgatgaatggatcgacaacgaggaagaactcaacactcgcat ggatgaatacatgcatgaacgaaagaaagctcaagatgcgttctccgttaagtatcgcggtactct cgatcctgatgctcatctctgggaacgttgcgctacagtactgtcacgtagggacattgtaagtaa gctcagcgaaccatggggaagctaattatgttgtgatgtggatgccccgctcagccaaggtcctgc acaactatgttggatgctcttttttagagggctacatcatgaattcgatcaaagttattggtacaa ttctgagtaaatctgtctctcagggtatccatttcgagtg (SEQ ID NO: 301)

TABLE 15-C Sequences of validated defense systems  (Sequences encoded by the genes corresponding to rows 1-68 of Table 15-A) Row No. Sequence  1 MIKNDKAWIGDLLGGPLMSRESRVIAELLLTDPDEQTWQEQIVGHNILQASSPNTAKRYAATIRLRLNTLDKSAWTLIAEG SERERQQLLFVALMLHSPVVKDFLAEVVNDLRRQFKEKLPGNSWNEFVNSQVRLHPVLASYSDSSIAKMGNNLVKALAE AGYVDTPRRRNLQAVYLLPETQAVLQRLGQQDLISILEGKR* (SEQ ID NO: 302)  2 MIDPVLEYRLSQIQSRINEDRFLKNNGSGNEIGFWIFDYPAQCELQVREHLKYLLRHLEKDHKFACLNVFQIIIDMLNERGLF ERVCQQEVKVGTETLKKQLAGPLNQKKIADFIAKKVDLAAQDFVILTGMGNAWPLVRGHELMSALQDVMGFTPLLMFYP GTYSGYNLSPLTDTGSQNYYRAFRLVPDTGPAATLNPQ* (SEQ ID NO: 303)  3 MNIEQIFEKPLKRNINGVVKAEQTDDASAYIELDEYVITRELENHLRHFFESYVPATGPERIRMENKIGVWVSGFFGSGKSH FIKILSYLLSNRKVTHNGTERNAYSFFEDKIKDALFLADINKAVHYPTEVILFNIDSRANVDDKEDAILKVFLKVFNERIGYC ADFPHIAHLERELDKRGQYETFKAAFADINGSRWEDERDAYYFISDDMAQALSQATQQSLESSRQWVEQLDKNFPLDINN FCQWVKEWLDDNGKNILFMVDEVGQFIGKNTQMMLKLQTITENLGVICGGRAWVIVTSQADINAAIGGMSSRDGQDFSKI QGRFSTRLQLSSSNTSEVIQKRLLVKTDEAKAALAKVWQEKADILRNQLAFDTTTTTALRPFTSEEEFVDNYPFVPWHYQI LQKVFESIRTKGAAGKQLAMGERSQLEAFQTAAQQISAQGLDSLVPFWRFYAAIESFLEPAVSRTITQACQNGILDEFDGNL LKTLFLIRYVETLKSTLDNLVTLSIDRIDADKVELRRRVEKSLNTLERLMLIARVEDKYVFLTNEEKEIENEIRNVDVDFSAI NKKLASIIFDDILKSRKYRYPANKQDFDISRFLNGHPLDGAVLNDLVVKILTPKDPTYSFYNSDATCRPYTSEGDGCILIRLP EEGRTWSDIDLVVQTEKFLKDNAGQRPEQATLLSEKARENSNREKLLRVQLESLLAEADVWAIGERLPKKSSTPSNIVDEA CRYVIENTFGKLKMLRPFNGDISREIHALLTVENDTELDLGNLEESNPDAMREVETWISMNIEYNKPVYLRDILNHFARRPY GWPEDEVKLLVARLACKGKFSFSQQNNNVERKQAWELFNNSRRHSELRLHKVRRHDEAQVRKAAQTMADIAQQPFNER EEPALVEHIRQVFEEWKQELNVFRAKAEGGNNPGKNEIESGLRLLNAILNEKEDFALIEKVSSLKDELLDFSEDREDLVDFY RKQFATWQKLGAALNGSFKSNRSALEKDAAAVKALGELESIWQMPEPYKHLNRITPLIEQVQNVNHQLVEQHRQHALERI DARIEESRQRLLEAHATSELQNSVLLPMQKARKRAEVSQSIPEILAEQQETKALQMDADKKINLWIDELRKKQEAQLRAAN EAKRAADSEQTYVVVEKTVIQPVPKKTHLVNVASEMRNATGGEVLETTEQVEKALDTLRTTLLAVIKAGDRIRLQ* (SEQ ID NO: 304)  4 MNTNNIKKYAPQARNDFRDAVIQKLTTLGIAADKKGNLQIAEAETIGETVRYGQFDYPLSTLPRRERLVKRAREQGFEVLV EHCAYTWFNRLCAIRYMELHGYLEHGFRMLSHPETPTAFEVLDHVPEVAEALLPENKAQLVEMKLSGNQDEALYRELLL GQCHALHHAMPFLFEAVDDEAELLLPDNLTRTDSILRGLVDDIPEEDWEQVEVIGWLYQFYISEKKDAVIGKVVKSEDIPA ATQLFTPNWIVQYLVQNSVGRQWLQTYPDSPLKDKMEYYIEPAEQTPEVQAQLAAITPASIEPESIKVLDPACGSGHILIEA YNVLKNIYEERGYRGRDIPQLILENNIFGLDIDDRAAQLSGFALLMMARQDDRRIFTRDVRLNIVSLQESLHLDIAKLWQQL NFHQQVQTGSMGDMFAENNALTQTDSAEYQLLMRTLKRFVNAKTLGSLIQVPQEEEAELKVFLDALYRLEQEGDFQQKT AAKAFIPFIQQAWILAQRYDAVVANPPYMGGNYMETELKNFVSSYYPQGKADLYSSFMVRLLLQLKDNRTLSLMTPFTW MNLSSFEELRKIILTNFSIQSLVQPEYHSFFESAYVPICAFSISNTPLSWNAKFFDLSDFYGEKNQAPNFQYAIKNDNKCHWK YNRITTDFLCTPGYIIAYSLPDSALSCFKTSKKLHDVCNLKQGLITGDNERYLRFWHEISYNSFSLNEKRKKTKWFPYQKGG AYRKWYGNNDYVVDWENDGYSIKNFYNDKGKLRSRPQNIQFYCKEGLTWTSLTISSLSMRYVPNGYIFDAKGPMCFPKS SLDIWNILGYANSKVIDIFLKQLAPTMDYSQGPVGNVPFKFNDGDLNEIIKELVNIHKRDWDENETSFEFKRDMLVHFSRDI NTIKGSFTLRQGENKKAINRTKFLEEMNNSFFINCFNLTDILSPEIELNKITLTHATIEIDIQKIISYAIGCQMGRYSLDREGLVY AHEGNNGFADLVAEGAYKSFPADSDGILPLMDEEWFDDDVTSRVKEFIRTVWGEEYLRENLDFIAEVLKPKKGESALETIR RYLSTQFWKDHLKMYKKRPIYWLFSSGKEKAFECLVYLHRYNDATLSRMRTEYVVPLLARYQANIDRLNDQLDEASGGE STRLKRERDSLIKKFSELRSYDDRLRHYADMRISIDLDDGVKVNYGKFGDLLADVKAITGNAPEVI* (SEQ ID NO: 305)  5 MQNQDFIAGLKAKFAEHRIVFWHDPDKRFIEELEQLKLESVTLINMTHESQLAVKKRIEIDEPEQQFLLWFPHDAPPHEQD WLLDIRLYSSEFHADFAAITLNTLGIPQLGLREHIQRRKAFFSTKRTQALKNLATEQEDEASLDKKMIAVIAGAKTAKTEDIL FNLITQYVNQQIEDDSELENTQAMLKRHGLDSVLWEMLNHEMGYQAEEPSLENLLLKLFCTDLSAQADPQQRAWLEKNV LLTPSGRASALAFMVTWRADRRYKEAYDYCAQQMQAALHPEDHYRLSSPYDLHECETTLSIEQTIIHALVTQLLEESTTLD REAFKKLLSERQSKYWCQTQPEYYAIYDALRQAERLLNLRNRHIDGFHYQDSATFWKAYCEELFRFDQAYRLFNEYALLV HSKGAMILKSLDDYIEALYSNWYLAELSRNWNEVLEAENRMQAWQIPGVPRQQNFFNEVVKPQFQNPQIKRVFVIISDAL RYEVAEELGNQINTEKRFTAELRSQLGVLPSYTQLGMAALLPHEQLCYQPGNGDIVYADGLSTSGIPNRDTILKNYKGMAI KSKDLLELKNQEGRDLIRDYEVVYIWHNTIDATGDTASTEDKTFEACRTAVAELKDLVTKVINRLHGTRIFVTADHGFLFQ QQALSVQDKTTLQIKPENTIKNHKRFIIGHQLPADDFCWKGKVADTAGVSDNSEFLIPKGIQRFHFSGGARFVHGGTMLQE VCVPVLQIKALQKTAAEKQPQRRPVDIVAYHPMIKLVNNIDKVSLLQTHPVGELYEPRILNIYIVDNANNVVSGKERISFDS DNNTMEKRVREVTLKLIGANFNRRNEYWLILEDAQTETGYQKYPVIIDLAFQDDFF* (SEQ ID NO: 306)  6 MQTHHDLPVSGVSAGEIASEGYDLDALLNQHFAGRVVRKDLTKQLKEGANVPVYVLEYLLGMYCASDDDDVVEQGLQN VKRILADNYVRPDEAEKVKSLIRERGSYKIIDKVSVKLNQKKDVYEAQLSNLGIKDALVPSQMVKDNEKLLTGGIWCMIT VNYFFEEGQKTSPFSLMTLKPIQMPNMDMEEVFDARKHFNRDQWIDVLLRSVGMEPANIEQRTKWHLITRMIPFVENNYN VCELGPRGTGKSHVYKECSPNSLLVSGGQTTVANLFYNMASRQIGLVGMWDVVAFDEVAGITFKDKDGVQIMKDYMAS GSFSRGRDSIEGKASMVFVGNINQSVETLVKTSHLLAPFPTAMIDTAFFDRFHAYIPGWEIPKMRPEFFTNRYGLITDYLAEY MREMRKRSFSDAIDKFFKLGNNLNQRDVIAVRRTVSGLLKLMHPDGAYSKEDVRVCLTYAMEVRRRVKEQLKKLGGLEF FDVNFSYIDNETLEEFFVSVPEQGGSELIPAGMPKPGVVHLVTQAESGMTGLYRFETQMTAGNGKHSVSGLGSNTSAKEAI RVGFDYFKGNLNRVSAAAKFSDHEYHLHVVELHNTGPSTATSLAALIALCSILLAKPVQEQMVVLGSMTLGGVINPVQDL AASLQLAFDSGAKRVLLPMSSAMDIPTVPAELFTKFQVSFYSDPVDAVYKALGVN* (SEQ ID NO: 307)  7 MHKYPSIIVNINLREAKLKKKVREHLQSLGFTRSDSGALQAPGNTKDVIRALHSSQRAERIFANQKFITLRAAKLIKFFASGN EVIPDKISPVLERVKSGTWQGDLFRLAALTWSVPVSSGFGRRLRYLVWDESNGKLIGLIAIGDPVFNLAVRDNLIGWDTHA RSSRLVNLMDAYVLGALPPYNALLGGKLIACLLRSRDLYDDFAKVYGDTVGVISQKKKQARLLAITTTSSMGRSSVYNRL KLDGIQYLKSIGYTGGWGHFHIPDSLFIELRDYLRDMDHAYADHYMFGNGPNWRLRTTKAALNALGFRDNLMKHGIQRE VFISQLAENATSILQTGKGEPDLTSLLSAKEIAECAMARWMVPRSIRNPEYRLWKARDLFDFISNDSLNFPPFDEIAKTVV* (SEQ ID NO: 308)  8 MNYAIDKFTGTLILAARATKYAQYVCPVCKKGVNLRKGKVIPPYFAHLPGHGTSDCENFVPGNSIIVETIKTISKRYMDLRL LIPVGSNSREWSLELVLPTCNLCRAKITLDVGGRSQTLDMRSMVKSRQIGAELSVKSYRIVSYSGEPDPKFVTEVERECPGL PSEGAAVFTALGRGASKGFPRAQELRCTETFAFLWRHPVAPDFPDELEIKSLASKQGWNLALVTIPEVPSVESISWLKSFTY LPVVPARTSITAIWPFLNQKTSINHVECVYSDTILLSTNMAPTSSENVGPTMYAQGSSLLLSAVGVETSPAFFILNPGENDFV GVSGSIEQDVNLFFSFYKKNVSVPRKYPSIDLVFTKRNKEKTIVSLHQRRCIEVMMEARMFGHKLEYMSMPSGVEGVARIQ RQTESNVIKLVSNDDIAAHDKSMRLLSPVALSQLSDCLANLTCHVEIDFLGLGKIFLPGSSMLSLDDGKFIELSPNLRSRILSF ILQMGHTLHGFSLNNDFLLVEKLVDLQPEPHLLPHYRALVKEVKTNGFECNRFR* (SEQ ID NO: 309)  9 MSYQYSQEAKERISKLGQSEIVNFINEISPTLRRKAFGCLPKVPGFRAGHPTEIKEKQKRLIGYMFQSHPSSEERKAWKSFSL FWQFWAEEKIDKSFSMIDNLGLKENSGSIFIRELAKNFPKVARENIERLFIFSGFADDPDVINAFNLFPPAVVLARDIVIDTLPI RLDELEARISLIADNVEKKNNHIKELELKIDAFSEQFDNYFNNEKSSLKIINELQSLINSETKQSDIANKAIDELYHFNEKNKQ LILSLQEKLDFNALAMNDISEHEKLIKSMANDISEFKNALTILCDNKIKNNELDYVNELKKLTERIDTLEINTSQASEVSVTN RFTKFHEIAHYENYEYLSSSEDISNRISLNLQAVGLTKNSAEKLARLTLATFVSGQIIQFSGSLADIIADAIAIAIGAPRYHIWR VPVGIISDMDAFDFIETIAESSRCLLLKGANLSAFEIYGAAIRDIVVQRQIHPTNYDHLALIATWKQGPATFPDGGMLAELGP VIDTDTLKMRGLSATLPQLKPGCLAKDKWTNIDGLHLDSVDDYVDELRALLDEAGFDGGTLWKRMIHIFYTSLIRIPNGNY IYDLYSVLSFYTLTWAKIKGGPVQKIEDIANRELKNYSAKISS* (SEQ ID NO: 310) 10 MEWRAVSRDKALDMLSTALNCRFDDEGLRISAVSECLRSVLYQYSISETEEARQTVTSLRLTSAVRRKLVPLWPDIADIDN AIHPGIMSILNSLAELGDMIKLEGGNWLTAPPHAVRIDNKMAVFFGGEPSCTFSTGVVAKSAGRVRLVEEKVCTGSVEIWD ANEWIGAPAEGNEEWSSRLLSGTISGFIDAPGNMSETTAYVRGKWLHLSELSFNKKQIYLCRMSVDNHFSYYLGEIEAGRL CRMNSLESSDDVRRLRFFLDTKDNCPLKVRIKISNGLARLRLTRRLPRRETKVLLLGWRESGFENEHSGITHHVFPEEILPIV RSAFEGLGIIWINEFTRRNEI* (SEQ ID NO: 311) 11 MINKNKVTERSGIHDTVKSLSENLRKYIEAQYHIRDEGLIAERRALLQQNETIAQAPYIEATPIYEPGAPYSELPIPEAASNVL TQLSELGIGLYQRPYKHQSQALESFLGENASDLVIATGTGSGKTESFLMPIIGKLAIESSERPKSASLPGCRAILLYPMNALVN DQLARIRRLFGDSEASKILRSGRCAPVRFGAYTGRTPYPGRRSSRRDELFIKPLFDEFYNKLANNAPVRAELNRIGRWPSKD LDAFYGQSASQAKTYVSGKKTGKQFVLNNWGERLITQPEDRELMTRHEIQNRCPELLITNYSMLEYMLMRPIERNIFEQTK EWLKADEMNELILVLDEAHMYRGAGGAEVALLIRRLCARLDIPRERMRCILTSASLGSIEDGERFAQDLTGLSPTSSRKFRII EGTRESRPESQIVTSKEANALAEFDLNSFQCVAEDLESAYAAIESLAERMGWQKPMIKDHSTLRNWLFDNLTGFGPIETLIEI VSGKAVKLNILSENLFPDSPQQIAERATDALLALGCYAQRASDGRVLIPTRMHLFYRGLPGLYACIDPDCNQRLGNHSGPTI LGRLYTKPLDQCKCASKGRVYELFTHRDCGAAFIRGYVSSEMDFVWHQPNGPLSEDEDIDLVPIDILVEETPHVHSDYQDR WLHIATGRLSKQCQDEDSGYRKVFIPDRVKSGSEITFDECPVCMRKTRSAQNEPSKIMDHVTKGEAPFTTLVRTQISHQPAS RPIDGKHPNGGKKVLIFSDGRQKAARLARDIPRDIELDLFRQSIALACSKLKDINREPKPTSVLYLAFLSVLSEHDLLIFDGED SRKVVMARDEFYRDYNSDLAQAFDDSFSPQESPSRYKIALLKLLCSNYYSLSGTTVGFVEPSQLKSKKMWEDVQSKKLNIE SKDVHALAVAWIDTLLTEFAFDESIDSTLRIKAAGFYKPTWGSQGRFGKALRKTLIQYPAMGELYVEVLEEIFRTHLTLGK DGVYFLAPNALRLKIDLLHVWKQCNDCTALMPFALEHSTCLACGSNSVKTVEPSESSYINARKGFWRSPVEEVLVSNSRLL NLSVEEHTAQLSHRDRASVHATTELYELRFQDVLINDNDKPIDVLSCTTTMEVGVDIGSLVAVALRNVPPQRENYQQRAG RAGRRGASVSTVVTYSQNGPHDSYYFLNPERIVAGSPRTPEVKVNNPKIARRHVHSFLVQTFFHELMEQGIYNPAEKTAILE KALGTTRDFFHGAKDTGLNLDSFNNWVKNRILSTNGDLRTSVAAWLPPVLETGGLSASDWFAKVAEEFLNTLHGLAEIVP QTAVLVDEENEDDEQTSGGMKFAQEELLEFLFYHGLLPSYAFPTSLCSFLVEKIVKNIRGSFEVRTVQQPQQSISQALSEYA PGRLIVIDRKTYRSGGVFSNALKGELNRARKLFNNPKKFIHCDKCSFVRDPHNNQNSENTCPICGGILKVEIMIQPEVFGPEN AKELNEDDREQEITYVTAAQYPQPVDPEDFKFNNGGAHIVFTHAIDQKLVTVNRGKNEGESSGFSVCCECGAASVYDSYSP AKGAHERPYKYIATKETPRLCSGEYKRVFLGHDFRTDLLLLRITVGSPLVTDTSNAIVLRMYEDALYTIAEALRLAASRHK QLDLDPAEFGSGFRILPTIEEDTQALDLFLYDTLSGGAGYAEVAAANLDDILTATLALLESCECDTSCTDCLNHFHNQHIQS RLDRKLGASLLRYALYGMVPRCASPDIQVEKLSQLRASLELDGFQCIIKGTQEAPMIVSLNDRSIAVGSYPGLIDRPDFQHD VYKSKHTNAHIAFNEYLLRSNLPQSHQNIRKMLR* (SEQ ID NO: 312) 12 MKKVYELTSEEALSYFLRHDSYTTLELPAYINFTTLLNDINSSIHNKKIKIEPTAKELMGKDINYEVLVSKDGLYSWRRITLI NPLYYVYFCRKITAPATWEIITEKFKSFESNDLFTCSSIPVRKDNSSNIAASVMNWWEDFEQKSLALALEYEFMFSTDISNFY PSIYTHSFEWVFISKEEAKKKKSKNNPGGLIDSHIQMMMNNQTNGIPLGSTLMDTFAELILGQIDIELRKKTNELKIINYKVV RYRDDYRIFSNSKDDLDIISKCLVNVLGDFGLDLNSKKTELYEDIILHSLKQAKKDYIKEKRHKSLQKMLYSIYLFSLKHPNS KTTVRYLNDFLRNLFKRKTIKDNGQQVDAMLGIISSIMAKNPTTYPVGTAIFSKLLSFLYGDDTQKKLTKLEQLHKKLDKQ PNTEMLDIWFQRTQAKINLEWNKSYKSALCVRINDELTKEKTFSVNNLWNIDWIQGKETSPNKAKILSLLRKTKIVDTDKF DKMDDNITPEEVNLFFKEHSN* (SEQ ID NO: 313) 13 MSLHDKLLMHNFALANKKSPDFISELPQIEPKPYSNGHKIKWINHTLTSTEVTPPDNLIKICILIESGEIAITSVSDIANLLGYP AGQLLYILYRKKDNYRTFEIEKKNGKKRVINAPCGGLSILQTRLKPVLEYFYRPKKSAHGFIKGKSIITNAGMHIKKNFVVNI DLENYFESISFARVYGIFKSKPFNFAHPAATVLAQLCTHNGKLPQGACTSPILANIASASLDKQLTQFAGRKKISYSRYADDI TFSFNQRNIDIIKKNDDGSYSLSETIDNIISKNGFKINYDKFRVQTRNTRQSVTGLVVNDKVNINRRYIRITRSMIHRWTDDK LKYALLFATEKGYQAKDNNHAIQIFRNHIYGRLSFIKMVRGKDYPGYLKLMSYMSHNDPLKTQEGLRAMKETENFDVFIC HASEDKKDIAIPIYDELTKLKISAFIDHVEIKWGDSLIDKINAALVKSKYVIAILSANSVNKEWPQKELRAVLASEISSGDVKL LTLLKKEDEEVVNLSLPLLSDKFYMVYDNNPEVVANNIKSLLQR* (SEQ ID NO: 314) 14 MTKTSKLDALRAATSREDLAKILDVKLVFLTNVLYRIGSDNQYTQFTIPKKGKGVRTISAPTDRLKDIQRRICDLLSDCRDEI FAIRKISNNYSFGFERGKSIILNAYKHRGKQIILNIDLKDFFESFNFGRVRGYFLSNQDFLLNPVVATTLAKAACYNGTLPQG SPCSPIISNLICNIMDMRLAKLAKKYGCTYSRYADDITISTNKNTFPLEMATVQPEGVVLGKVLVKEIENSGFEINDSKTRLT YKTSRQEVTGLTVNRIVNIDRCYYKKTRALAHALYRTGEYKVPDENGVLVSGGLDKLEGMFGFIDQVDKFNNIKKKLNK QPDRYVLTNATLHGFKLKLNAREKAYSKFIYYKFFHGNTCPTIITEGKTDRIYLKAALHSLETSYPELFREKTDSKKKEINLN IFKSNEKTKYFLDLSGGTADLKKFVERYKNNYASYYGSVPKQPVIMVLDNDTGPSDLLNFLRNKVKSCPDDVTEMRKMK YIHVFYNLYIVLTPLSPSGEQTSMEDLFPKDILDIKIDGKKFNKNNDGDSKTEYGKHIFSMRVVRDKKRKIDFKAFCCIFDAI KDIKEHYKLMLNS* (SEQ ID NO: 315) 15 MNKKFTDEQQQQLIGHLTKKGFYRGANIKITIFLCGGDVANHQSWRHQLSQFLAKFSDVDIFYPEDLFDDLLAGQGQHSLL SLENILAEAVDVIILFPESPGSFTELGAFSNNENLRRKLICIQDAKFKSKRSFINYGPVRLLRKFNSKSVLRCSSNELKEMCDS SIDVARKLRLYKKLMASIKKVRKENKVSKDIGNILYAERFLLPCIYLLDSVNYRTLCELAFKAIKQDDVLSKIIVRSVVSRLI NERKILQMTDGYQVTALGASYVRSVFDRKTLDRLRLEIMNFENRRKSTFNYDKIPYAHP* (SEQ ID NO: 316) 16 MKSAEYLNTFRLRNLGLPVMNNLHDMSKATRISVETLRLLIYTADFRYRIYTVEKKGPEKRMRTIYQPSRELKALQGWVL RNILDKLSSSPFSIGFEKHQSILNNATPHIGANFILNIDLEDFFPSLTANKVFGVFHSLGYNRLISSVLTKICCYKNLLPQGAPSS PKLANLICSKLDYRIQGYAGSRGLIYTRYADDLTLSAQSMKKVVKARDFLFSIIPSEGLVINSKKTCISGPRSQRKVTGLVIS QEKVGIGREKYKEIRAKIHHIFCGKSSEIEHVRGWLSFILSVDSKSHRRLITYISKLEKKYGKNPLNKAKT* (SEQ ID NO:  317) 17 MSVIRGLAAVLRQSDSDISAFLVTAPRKYKVYKIPKRTTGFRVIAQPAKGLKDIQRAFVQLYSLPVHDASMAYMKGKGIRD NAAAHAGNQYLLKADLEDFFNSITPAIFWRCIEMSSAQTPQFEPQDKLFIEKILFWQPIKRRKTKLILSVGAPSSPVISNFCMY EFDNRIHAACKKVEITYTRYADDLTFSSNIPDVLKAVPSTLEVLLKDLFGSALRLNHSKTVFSSKAHNRHVTGITINNEETLS LGRDRKRFIKHLINQYKYGLLDNEDKAYLIGLLAFASHIEPSFITRMNEKYSLELMERLRGQR* (SEQ ID NO: 318) 18 MTKQYERKAKGGNLLSAFELYQRNSDKAPGLGEMLVGEWFEMCRDYIQDGHVDESGIFRPDNAFYLRRLTLKDFRRFSL LEIKLEEDLTVIIGNNGKGKTSILYAIAKTLSWFVANILKEGGSGQRLSEMTDIKNDAEDRYSDVSSTFFFGKGLKSVPIRLSR SALGTAERRDSEVKPAKDLADIWRVINEVNTINLPTFALYNVERSQPFNRNIKDNTGRREERFDAYSQTLGGAGRFDHFVE WYIYLHKRTVSDISSSIKELEQQVNDLQRTVDGGMVSVKSLLEQMKFKLSEAIERNDAAVSSRVLTESVQKSIVEKAICSVV PSISNIWVEMITGSDLVKVTNDGHDVTIDQLSDGQRVFLSLVADLARRMVMLNPLLENPLEGRGIVLIDEIELHLHPKWQQ EVILNLRSAFPNIQFIITTHSPIVLSTIEKRCIREFEPNDDGDQSFLDSPDMQTKGSENAQILEQVMNVHSTPPGIAESHWLGNF ELLLLDNSGELDNHSQVLYDQIKAHFGIDSIELKKADSLIRINKMKNKLNKIRAEKGK* (SEQ ID NO: 319) 19 MRELARLERPEILDQYIAGQNDWMEIDQSAVWPKLTEMQGGFCAYCECRLNRCHIEHFRPRGKFPALTFIWNNLFGSCGD SRKSGGWSRCGIYKDNGAGAYNADDLIKPDEENPDDYLLFLTTGEVVPAIGLTGRALKKAQETIRVFNLNGDIKLFGSRRT AVQAIMPNVEYLYTLLEEFDEDDWNEMLRDELEKIESDEYKTALKHAWTFNQEFA* (SEQ ID NO: 320) 20 MKLLDKKYYNLEPKYEYLKDSFILGLAWKKTDSFVRTHNWYADILELDKCAFDISDEVTNWSNEISKNALSKSDIELIPAP KGASWFINQGKWTTNKDNRKIRPLANISIRDQSFATAVTMCLADAIETRQKDCSLSNLGYAEHVKNKVVSYGNRLVCDW DNERARFRWGGSEYYRKFSSDYRSFLQRPIYIGRETVNKVSGIDDVYIISLDLKNFFGSIKINLLLEKIKKISADHYAAKFIND NEFWTLANRILSWDWPEESLSLLESLDIKEKNVGLPQGLASAGALANAYLIEFDESLISKLRTKIEDSQIILHDYCRYVDDIR LVISGEALESNKIKESIHALVQGILDETLAQNPSDNEPYLKINDSKTYILELSDIDNGSGLTNRINEIQHEVGASSIPERNGLDN NIPALQQLLLTEQDNFSEDVDSLFPGFKNDKSIKVESVRRFSAHRLEKSLAKKSKLISPEERKQFDNETSLIAKKLLKAWLK DPSIMVIFRKAIAINPNLDAYSTILEIIFSRIQRNRDKRDKYIMLYLLSDIFRSVIDVYRNLESEYVDDYQKLMGEVTLFAQKIL SCKSFIPNYAYQQALFYLAVINKPFIASNKASFDLARLQCVLIKQHLEPLNSSDGYLFEVSAQISKDYRANAAFLLSHTNSNK VVDLIIEKFAFRGGEFWNAIWKEIVRMQDKDRINEFRWAISKYESKPNSSEHYLSSVISFKENPFRYEHALLKLGVALVELF DDTEKNVWQPDGKQYSPHEIKVKLEGNSTSWGELWRPNFSISCSIDKKGEPGKDPRYISPEWLANYPQTQNDEQKIYWVC SVLRSAALGNVDYTQRNDLKLDKAKYDGIHSQFYKRRMGMLHTPESIVGSYGTITDWFASFLQHGLQWPGFSSSYISQEDI LSITNIIEFKNCLLERLGYLNKQICISSNVPTLPTVVNRPELASNHFRIVTVQQLFPKDTNFHPSDVTLANPDVRWKHREHLA EICKLTEQTLNAKLKTESREHTSTADLIVFSELAVHPEDEDIVRALAFRTKAIIFSGFVFCEQDGRIVNKARWIIPDSSESGTQ WRVRDQGKHHMTSDEVALGIQGYRPSQHIISIEGHPEGPFKLTGAICYDATDIKLAADLRDLTDMFVIAAYNKDVDTFDN MASALQWHMYQHIVITNTGEYGGSTMQAPYKEKYHKLISHAHGTGQIAISTADIDLAAFRRKLQIYKKTKTQPAGYNRKH* (SEQ ID NO: 321) 21 MDTLVKLATIISPLISAGVAIWAILVAKKTISESKEIAKKTIADTAYQAYLQLAMENPQFSKGYSADCRQERDPMYDQYVW YVARMIFCFEKIIEVEVNLKDSSWANTLEKHLKFHSEHFKKTNVVEEALYIPPILDLIRCAAN* (SEQ ID NO: 322) 22 MNNDDYPWFRKRGYLHFDEPVSLKKAVKYVSSPEKIIKHSFLPFLSFEVKSFKIKKDKSTKQLSKTEKLRPIAYSSHLDSHIY AFYAEYLTGHYELLIQENNLHENILAFRSLNKSNIEFAKRAFDTITEMGECSAVALDLSGFFDNLDHQILKHQWCKVIGTEA LPQDHFAIYKSITRYSKVDKNRAYEILGISKNNPKYNRRKICTPVDFRNKIRKNGLIIVNNSQKGIPQGSPISALLSNIYMLDF DIEMRDYAQERGGHYYRYCDDMLFIVPTKYNKTLAGDVAQRIKHLKVELNTKKTEIRDFIYKDSTLVANMPLQYLGFIFD GSNILLRSSSLARYSERMKRGVRLAKATMDSKNRIRENKGEALKALFKKKLYARYSHIGRRNFLTYGYRAAKIMNSKAIK RQLKPLQKRLENEILK* (SEQ ID NO: 323) 23 MLNQSFSVSNLIKLLKKTDPKRYKIGRNSAEYKKYIADKVNGSIETYSFGSISNSRINNKNVYIFKDFMDVLVARKINDNIKR VYSVKQNNRHDIIKKVNTVLSEPVNYYIYRLDIKSFYESIDKNIVFQRINNNPIISHNTKKFINGLFKHNAFSANNGLPRGMG LSATLSEIFMEEFDAELARLPEVFYASRYVDDIIVFSFYKIPDYKNYFSRILPNGLHLNERKCSEYTIEDTSTKHSEIEFLGYSFI IHHGLKNQRRHVVIRISEEKIKKIKRRIALAVKDYSNNSDAELLKKRIKYLTGNILVNSNSNKTDALYSGIYYNYQHLTDKT QLKELDIFKNRMLFSSKGEVGRKILAAGHNLLTAPKKYSFLAGFEKRLLSSFKREDIIKINKVW* (SEQ ID NO: 324) 24 MKIKISKSDYKRVLLTDILPYEVPILFSNEGFYKLISENKVLPGTFSEGLKLDSYTIPYSYKIKKGLASSRSLGIIHPSTQLRICD FYDKYEHLMVHMCTKSPFSLRYPSKIGSYYYEKDFLKSRINLKDGLVQFHNHGFDSQETSSSSHFSYKKYPFIYKFYESYEF HRLERKFRKLLKLDIAKCFSHIYTHSVSWAVKSKEFSKVNRTYNSFEGCLDKLFQDANYGETNGIIIGPEFSRIFAEIILQRVD LNVESHLNLEPGIVKDKSYAIRRYVDDYFIFADDDETFKLIEFVLANELEKYKLYLNESKKEFIERPFVTGATMAKNDIAEII EDLYGSLIHTEKLDELTAMVNLNPDVKIQPENMNDLFPLKGVWNKKLHADKFIKRIKIAVRKNNTTFDLVSSYLLSAIKSK FFKVIRLLRMFDLSGKEDITYKFFSIFNEVIFFIYAMDFRVRQTYIISQVILEINSFANKQASDISEVIKKNTFDELLMCMKSMG NIHERPVELSNLLICMKGLGEQYKLNPDEFKDLLGISENECFYDLEYFSICSMLHYIGDDVLYLKMKEDIVLAIQSLISGRND IKKDTETFMLFLDMMTCPYLTVKHKRHYRTYVEANTGQKRFTNAVIDSEIDSLKNNVIFFNWSGDADLEHVLYKKELRTA YE* (SEQ ID NO: 325) 25 MVIFDEKRHLYEALLRHNYFPNQKGSISEIPPCFSSRTFTPEIAELISSDTSGRRSLQGYDCVEYYATRYNNFPRTLSIIHPKAY SKLAKHIHDNWEEIRFIKENENSMIKPDMHADGRIIIMNYEDAETKTIRELNDGFGRRFKVNADISGCFTNIYSHSIPWAVIG VNNAKIALNTKVKNQDKHWSDKLDYFQRQAKRNETHGVPIGPATSSIVCEIILSAVDKRLRDDGFLFRRYIDDYTCYCKTH DDAKEFLHLLGMELSKYKLSLNLHKTKITNLPGTLNDNWVSLLNVNSPTKKRFTDQDLNKLSSSEVINFLDYAVQLNTQV GGGSILKYAISLVINNLDEYTITQVYDYLLNLSWHYPMLIPYLGVLIEHVYLDDGDEYKNKFNEILSMCAENKCSDGMAWT LYFCIKNNIDIDDDVIEKIICFGDCLSLCLLDSSDIYEEKINNFVSDIIKLDYEYDIDRYWLLFYQRFFKDKAPSPYNDKCFDIM KGYGVDFMPDENYKTKAESYCHVVNNPFLEDGDEIVSFNDYMAIA* (SEQ ID NO: 326) 26 MTSTIDFYESDFSATLYPLKTNQILLKHHSQEMSEYIYQKVINPAYPTDSFLSQQKVFSTKPKGHLRRTVKLDPVAEYFIYD VIYRNRKIFRPEVSESRKSFGYIFRNGSRIPIHVSYNEYKQSLKKYSELYSHSIHFDIASYFNSLYHHDIIHWFSSKEGVSPADV EALGQFFREINSGRSIDFMPQGIYPAKMIGNEFLKFVDLHGRLKSAQIVRFMDDFTIFDNDIETLNNDFIRIQQLLGQVSLNIN PSKTTFDNVMGDVNETLTQIKSSLKEIITEYEHIPTASGVEVVETNIEIIKHLDDEQVNKLIDLLKDEKIEESDADLILGFLRTH NDSLLSQMPMLLGRFPNLIKHIYTICSGITDKSGLVKILLSYLNTNNNFLEYQLFWIGAIVEDYLLGVGEYGSVLHKLYELSG DFKIARAKVLEIPEQGFGFKEIRNEYLRTGQSDWLSWSSAIGTRNLKSAERNYILDYFSKGSPINYLVASCVKKL* (SEQ ID NO: 327) 27 MTSEIVLNLDFPEYKDDFCTDSIDEQDNELWQQQANKKLLSFLEVMGEEARRYKENNSRSTHPHYKTLSSYHHAIFISGAR GAGKTVFMRNARFSWQKHYNKDLKRPKLYFIDVIDPTLLNIDDRFSEVIIASIYATVEKRMKQPDIAQNIKDNFINSLKTLS GALGKSKDYDEYRGIDRIQKYRSGIHLEKYFHQFLISSVELLDCDALVLPIDDVDMKIDNAFGVLDDIRCLLSCPLVLPLVS GDNDLYRFIAKSKFEELLNRKANSNYAKEGSEIAERLSEAYITKVFPSHVKIPLQPIDELLPYLYIHSNEDENKQHTSYSEFIK LVQQKFYFLCNGQERSTNWPQPRSAREVTQLIRSLPPSTLSKEDDSGTDLWQRFAVWAEERRDGLALTNVESYLFIKNAK AVEDLNLSNLIAFNPLLQKGKYPWAEKDFYKQQSQRRKELNAPETNSGILNTVFSEQRKDFILRSMPALELIMEPMYVTKT VAEKNDNSALIAIYTHSDYYSQQQNRRCHIFFGRAFEIMFWSVLAKTENLPQEFYEKDKFKSLFGNIFKKVPFYSIFSMNPT KVVDEENDDGSEPDFSQKLDDSINELVEDIYIWATSNKLRAFKNKNLIPLMTCVFNKVFSQINVLRKNVQDRVKFRDEHLS DLAKRFEYMFINAIFTFIREGVVVNTNVATGAAPARVRNLSEFNRYDKTLSRNMSGILSVKEDNGLTIVKESEGDIADLLFEI WHSPLFKLTTRTCYPIGKINSQNTAQENLSSDFNSFFENGINFELIKQYYWQTSNHDNIRTADVREWATSRLNEAIILFSWM KESKSIKAKIDGQSYEGRLFRGLQQALEGYEEV* (SEQ ID NO: 328) 28 MFNQDPYWLIPTLCLASDRIFYAQLRDHLGQKSSGERKKEKNGYILVQAAQDYQFYFGGRIRKEDVQNNALMWQIETGN ENCLSMLDSLSAYFLTWRGNCFEVRRERLEPWLMICSVIDPAWIIAYAYQQLIKQNVVCDSELISLLTEHQCPFAFPKGRGD ISFADNHVHLNGHGYSSISMLNFIDGNYKVKKGIKWPYRQEYTLFESGLLDKNDLPRWLSAYSSCLLKNVYNSFQQGKRS EVDFTCLKDAVETVLADEDKYYFLEVASLYDVVTLQQRVLYEAAQQKYHSHQRWLLYTCGIMLGTESEDYANALANLIR ISNILRNYMVVSAVGLGQFIDFFGFNYRRITKPADTNNRVHYDSSAGISREYRVSPDFVLGSGVMPDIYARQLFDFYCTQAR KGVPEQGHIVVHFTRSFPDKKSTYDKLLTECRERLRSQCDYFGRFLTSLTLQSIEYKNLSTDEDRSIDIRKLVRGYDVAGNE NELQIEVFAPVLRVLRAAKFKGEGVNFKRLQRPFITVHAGEDYCHILSGLRAMDEAVEFCMLGEGDRIGHGLALGVDIKL WANRQKRAYLTVGQHLDNLVWAYHQAVLLSQHIVEHIPVMHELRDKIHYWSHQLYSETYTPDLLFKAWLLRRNWPDYK SIISDPANINEWVPDQHILVSTDETTAKARKIWERYLNSGLAENDVFNRIISVNCAPDTAQNFSMTFNENEDILSKGELLLYE AIQDFLIEKYSRLGLVIEACPTSNIYIGRLEKYHEHPLFRWNPPDSQWIKPGGKFNRFGLRTGPLSVCINTDDSALMPTTIENE HRLMRDCAIHFYGIGTWMADLWINSIRIKGIEIFKGNHLSQDLDNLI* (SEQ ID NO: 329) 29 MNTIYIPLDSGESAVLKDPDTLLPRNIYEQLTRFIEKAVNEVPKPHEALNETRSHKAISIDGARGTGKTSVLVNLNDYLQSN AQQLAGKIHILDPIDPTLLEDGESLFLHIIVAAVLHDKEIKTAQSRDLDKSRVFTQKLENLAHGLESVDLQQNQRGMDKIRS LYGSKHLANCVEEFLKSALELIGKKLLILPIDDVDTSLNRAFENLEILRRYLTSPYVLPVVSGDRRLYDEVCWRDFHGRLNK DSAYNRKNTYDIARDLAIEYQRKILPLPRRLSMPDVSDYWQQDGIEVTLDKNGIPLRNFMAWLKIFITGPVNGLEGSDLPLP IPSIRALTQFINHCRDLIRELPEPFRKKVSTLALRRMWQMPDVPLDVLESFAEKHRELSKEAKREYGEAYKLFYDGLKNFTA WDSKAYLEDDKQSAWLDRLCEYFRFEPKAGAVFLTLQAKQFWVSWAQGDNRNQSILATPLFQPLLHNFREYDVFERYDD LSDWESQLRTRLPESWLTAIKGQKTLLPYPVAEAGINTSLKWRYWEELENYGFDPALESKANFLLSTLMQRNFYTNSKQS VVINIGRVFEIIIASLVSDLELADLQRIRQRSPFYSASALAPTKTLDLEEDFTKKNTRFMNNRSETDRDISDDILVDVPDKNED AWKKICDEINHWRKTHNVASTNLSPWLVYKVFNKTYSQVANNVFVPSGMQNVDAALNVFGRVFYAVWSAFGSFEKGEL FGLSDVVATTNIISAKNFYNHDNFRVNVGPFTPEQNQNSDSDREAYQHRKMYGEKTRAVSYVLATHPLKKWIDEVLRTEF KQKQNAQIQTERKMPIQAEKIIDISPAREFITRKLSLNSHSRLVKTRIIKQLKMLYPNYDKAKDFIDEVTNHFPQNDPAINTLQ KAFAELYPDGDK* (SEQ ID NO: 330) 30 MLTRSLSEHAAGCFFTDERLSQRFLDILLSPPKDFETWSSLQEESFKLLVKSIDSRYPRTYRLTDVRQLVGNICDNGLLTSPT LPWLDVIADQLLLRNGDLLYYRENKVQDYVRIAAELDPALLVGWRLGDWLLQSPPPRLTDITRVVMAQNPFFAPPANAG KPFAEGHVHLGGVTAGDTILDGYLFEEIELPKSKDMLLWAHKEHDELTPLINRAKSLLTVLLSAPPQTVSEQTQNGFDQRK TVSEKYKALQNPMDSIHRLPDWLLLAKKNRGTESVSPGWFLNQLAHASEKKHPSRWLWLQLYLCHSYQLKDTHPLERTA ILCFWLTVNALRRHIIMDGQGLACFTERYFNGALRAGKKADSSNMRYLFAGKDDVAEVKASPKAFDHEMVTGFSSTLLKT LGIPAVFPPYIFGEHEIKPDERVLRYIGALERWQFCGHFSRSKTASRGKRAKADLQANWTEAERLLQKLYSHNGWNHPVFL GGKRNPHFHFQPSNWFRGLDVAGDENVLKIAGFAPMLRWLRSGLYPVPEGLRASMSFHFSIHAGEDYAHPASGLRHIDET VRFCEMREGDRLGHALALGIEPALWAKRHGEMILPLDEHLDNLVWQWHYATLLSASLPLAQAVLPLLERRIARFIARCEW CKKRPPQIDNSVVGKQACSDDKPLENITPDTLYRAWLLRRNCSYRLQQLHGGSPLTSQEKCALPDWATLSDKGNVAAQLY QQRHSSLLDDMPPQLVVVRVADEWGTQELIGLGNPGKLRQQALDGKDILQDIDTPVELQFMHALQDYLLDHYDRKGLIIE TNPTSNVYIARFKKHVEHPIFRWNPPDEELLKPGAEFNRYGLRRGPVRVLVNTDDPGIMPTTLRTEFLLLREAAIERGVSRT MAEYWLERLRLYGLEQFQRNHLNVFEVIE* (SEQ ID NO: 331) 31 MSGTFPYLQYTDVNGLQPKLKEELKNLRRKEYLSYWPRFLIRRISLYALPFLMFFTFFFCLSLTKKVGAEEVTNILGTVSISF SSCLLLGIIISGVVLLLQWTCFNCKYSPQDTNGVVGARKLNYKLLAHVVFVIACVLLFVFIYCTNNKVFYGFIVFLGLTLLPL VIDRTLGVTRQNERHKLYIRRLERLDELNILREKMNIKFEESHFIEYMKLVDEADHGKNQDTVSDTSYFMTLIENKLKV* (SEQ ID NO; 332) 32 MKIVSNTVWDGLKLPDYRARFFIEVWKEILYVNTPSFYQSKMINTMSGAEELVEAIDDYIQDDKSKKSLLSMIEDYKGNLK KDSIAKDTFKNLHATLLKKIETVPDPISSNYILELKTIVKLVLSKESDYYHELKKQLKSSILSNADLNKKARLMDSIYQLTKS FIGYLLWKGYSPTYLYNRMEYLTRIKNYGSRDFSAQFNSCLDKLTIRIHDYTVYFLITPLSKYLIELNNILDVSFINREGIINEK NYNKISQGVESSVLAKIVVNTTDYVSAAWQANEKLDKVIDYLEIEKPEYNIRYSPVCLTEFSNGRFTHRQTINIGRLKQFITS KNYSILENIPNESKVLLRESIKLDRYDVLTRSLRYLRVAKESTSLEQKLLGVWIALECIFESTSGNIISGITNHIPTFYSTQSLEI RIRYSKDLLEARLKPISDSLLEITANQKSKFRDLSLKEYFDIVKIEKNRNKIFDELVSKGDEFAVFRLIKIFESFGTSKKINDRF NDTKKDVESQLYRIYKVRNKITHRAYYGNIRPQLVDHLYSYLLSAYSTLIYSLRYNAINKFEPQDMFNAYIISCESLIFNVEE EKKLENITMDEIILS* (SEQ ID NO: 333) 33 MVAIKMYPAKDGDAFLIICDEEKSAFLIDGGYAETFRQHILPDLRELSFNGYRLRLVMATHIDSDHIGGLVDFFLVNGHAAE PAVITVDRVWHNSLRAMTRPENNAQKVDSREITDFLRRRYHVEADKAKPHEISARQGSSLAASLLAGDYHWNEGKGYQC ICTGTSIPNLMCDNSLTILSPSKERISALCLWWRRQLASLGFSGRSSSSEAFDDAFEFFCKREASQVPLPHVINARTPLLERDY ARDTSPTNGSSIAFSLVLNKKRILMLGDAWAEEVVTSLGASGASHHFDIIKISHHGSIRNTSPNLLKIIDAPVYLISTDGKKHA RHPNLAVLKAIVDRPAAFTRTLYFNYANSASAFMKNYLSASGAQFRIIEGSTDWITL* (SEQ ID NO: 334) 34 MRYAATETEIRNATVLIECAGYTGSGTLIAADKVLTAAHCVVSDDPETPITVTFFGADEDVCVNATISEIDTSCDACLLTLS DSVDIPPITLMTQPEREGSQWKAFGYPASRNGPSHYLHGTISQILPRLFHGVDMDLSVSADCVLEEYSGVSGAAILSENKCI AMVRIRMDGGLGAVSLDKLSGLLIRNGLIPDDIASLPDSSLSGEVVLNRTEFRDNFESFVLEHKGRAVLLEGSPGSGKTTFC RHYQPRSEQLAVAGVYEFTPEDGAGTTFKILPEVFADWLHNQVSILLSGRPARREETEKINLTQKVSDLLHTFSDYWKHKG KYGVIFIDAVNEASECGDEAVSRFTALLPVTLPENVKLVFTAPSLSSAGKAFRHWLTPQDCISLTLLSHREVLQLTARELKT SAPSLSLLTRVSDIAQGHPLYLRYILGYLKANPDQVNLEIFPVFSGSIETYYERLWQGLVKDESAVNLLGILSRMRWGIDISS LIPVLTPQEQTVFVPTLDRIQHLLLNDKSSALCHQSFAAFINSKTAVINSLLHGRLADFCLTSGESYGLINRAYHLLLASHDR HPEAALVCTQEWADACIVKGAQPDILIHDIRQTLKNTLIRADAVASIRLLLLFQRMTFRHHFLFLQSAYHSGLALAALGRPD EALEQLIPSGSLVVDAVDAIVSAQTLARMGNSEHALKLLEKVKSAVDQEFERNPVNLSDFIGLSLAWVRAELMAGVVDGH GRTREVVEYLYGCGQVVRDNFEQSAHSKSAYTRAFYPLQAEMEAVNIAFNDRSVSLRTVKEKFGSLPENILDLMLSSVMR AHDIILQHQLPMPQHALQPVWYNLDRLLHTDIPYSNEIRFNSLSSLIFFNAPSALIIRMAGVFSFEVVPEITLLNEENEIAADSI DVSEQGQLWLVSAYLNETQPCPDIKHPSQGCSEWLKTLTEAIFWYSGQARRAVIDGNDEKKELLLVKVQNDILPALSYSLE ERMAWPNSWAMPEQIIPMIYEELVNMFGACWPDKISVITDFILAHTPQQCGLYSEGYRRLLNRVIQTLLNEHRFLGQSDTTF QLLETLHAFVSAFTENRQELVPELLNIIPAYISLDAPQLAQDTYTELLGVSMGPDWYKEDQFALMTTMLRVIPQHTDTNTT LSQVAGFLEHASGEMTFRRYVRQEKSQFIGELIRRGNYAHGFNYYRQQSCGSHEEMLTQLSHPAADSPHPLKGMRFPGGA LDEEHAVECIVSELRNRVDWRLRWGLLEIFSFGSIGNLAVPFAELINEFSADTEDLNEIPKRLHNILHGDVPFSEHRNFIKNFT EHLADNHKPLFAEFISLLSEDTSDNDVKPPPSGDANQKGTDTSDDVAMQPGLFGKRSAINRAEACMENARKAAARRNTVR ASELAVESLHIIQDGDWSVWRKNNHLAELTRTYILDNSADAGSVIRAYASLVEKERYAPAWVIASHLIEIAASKFSDQEAQ AINQIVLEHNRHMLGNTEADAAHFSFLNEPDTSDAGEETLYFLFWLLEHPLKFRRERALEVLKWLASDDDKILGQCVTEAL VSDIASRAEALMALTDWVSARSPQRIWDFIVKERSLFEWLEGTTALSQVHLLERVTSRAGFVLRNEIAAFERPRKLLLTSEA SGQRNIPENLPTWVQSLSQTLAVMEKQGIDIPALLTLLEKRVLQQSGLADITVAFELEKLLARGFTVNRTPSHHRWETMVR FALNQIIHEAAAQDELQNIEPLLRAWNPASEECVEPWEVCNRAKQIICAVMEGRHQQASGIEDGFFLHYLDEVEVSREGQT HLVEISAVLTTAHNGHESLRPGAESEFNATQTPDIERTLSVHLTCQRVKMQPLLFGGATPAAVSKKFMQMTGTLPSDFIRR QWRSGRSLSKNRWGEPISRGSLLLMKRTTTLPPGLGLAWYVTVDGKLMNIFSYAPRRR* (SEQ ID NO: 335) 35 MKYSSMETPKTREEFEARCFHLLNAIKLGRYHGIPGEGNKEQVPFLPNGRVDLANIDTMTRLSMNSLYDFHYNRDNYPQF DLSENDENEEATD* (SEQ ID NO: 336) 36 MEPISITVATYVATKLIDQFISQEGYGCIKKALFPQKRYVDRLYQLIEETAIEFEETYPVESGAIPFYHSEPLFEMLNEHIFFKE FPDKEILLDKFKEYPSITPPTQQQLSLFYEMLSLKINNCSKLKKLHIEETYKEKIFDINEELIQVKLILRSIDEKLTFHLSDDWL NEKNSQAIADLGGRYTPELNVKLEIAEIFDGLGRTNDFSKIFYSHIDSFLVAGKKLHSCDVISSELFEINQSLKEISDIYQEINF SKLDEIPINKFNNYVSSCQTAIGGAVSILWELREKSEQVGETKHYSDKYSSTLRMLREFDYACNELRIFINSTTVKLANNPFL LLEGKAGIGKSHLLADVIKNRIASGYPSLLILGQQLTSDESPWSQIFKRLQLKITSREFLEKLNLYGKKTGKRVLVFIDAINEG NGNKFWNDNINSFVDEIRCFEWLGLIMSVRTTYRNVTISHENVVRNNFEIHEHIGFQNVELEAVSLFYDYYNIERPSSPNLN PEFKNPLFLKLLCEGIKKNGLTKVPVGFNGISNIFNFLVEGVNKSLASPKKYAFDPSFPLVKDALNEIIKFKLEIGRNSISLKD AHSVVQSVVNDYVADKTFLSALIDEGLLTKGIVRNDDNSTEEVVYVAFERFDDHLTVNFLLNDVENIESEFKPDGRLKKYF HDECDFYIKSGIVEALSIQLPERYEKELYEFLPEFSNNLKLLEAFIDSLIWRDIKAIDFEKIRPFINEHVFKFKDSFDHFLEAVISI SGLVGHPFNANFLHDWLKDYSLANRDSFWTTELKYKYSEDSAFRHLIDWAWARTDKSFVSDESIELVATSLCWFLTSSNR ELRDCSTKALVSLLEPRIPVLRKIIDKFYGVNDPYVWERIFAVALGCTLRTDNIKELKYLAETVYQKVFCSKYVYPNILLRD YAREIIEFANHLGLELESIELSKTRPPYNSIWPDKIPSKEELESLYDKEPYRELWSSIMEDGDFSRYTIGTNYNHSDWSGCKFN ETPVDRKQVFKTFKCKLTDQQKDLYDATDPFIYDDKCEGIKFGRVVGRKAQEEIKASKKLFKNSLSYDLLSEFENEIEPYLD HNNNLLETDKHFDLRLAQQFIFNRVIELGWDPEKHGNFDQQIGTGRGRREAFQERIGKKYQWIAYYEYMARLADNFTRFE GYGDERKENPYQGPWEPYVRDIDPTILLKETGTKKISNKEMWWLNDEVFDWTCSNEDWVKSSTTITNSYAFIEVKDDNGD EWIVLESHPSWKEPKIIGNDDWGHPRKEVWYQIRSYIVKVEEFENFRCWAIAQDFMGRWMPECTDRYQLFNREYYWSEA FKSFKSDYYGGSDWTSVTDRESGAKIADVSVTSINYLWEEEFDKSKIETLNFLKPSNLIFEKMGLKSGEVEGSFNDENGTM VCFAAEAVYASKPHLLVKKEPFLTMLRDNGFEIVWTLLGEKGVIGGSLISSHHYGRQEFSGAFYYEDSQLTGSHKTSFTR* (SEQ ID NO: 337) 37 MSDSLLVRTSRDGDQFHYLWAARRALRLLEPQSTLVALTIEGASTTEMGSQPVVEDGEELIDIAEYYGSNELATATTVRYM QLKHSTMHSDTPFPPSGLQKTIEGFATRYKALIQKIPVETLRTKLEFWFVTNRPVSSSFSEAINDAANQHVTRHPHDLAKLE KFTGLQGAELSIFCQLLHIEGQQDDLWSQRNILLRESAGYLPDLDTEAPLKLKELVNRKALTESAANPSITRMDVLRALGV DETDLFPAPCRIERIENSVSRTQEATLVQRVVEAFGAPVIIHADAGVGKSIFSTHIEEHLPTGSVSILYDCFGLGQYRNASSYR HHHRTALVQMANEMASRGLCHPLIPNAGTGISQYMRAFLHRLSQSISILRASEPLAVLCIIIDAADNAQMAAEEIGETRSFIK DLIREKLPDGVCLVALCRPYRRELLDPPPEALTLSLQTFNRDETAAHLHQKFPDASESDVDEFHRLSSCNPRVQALSLSQNL PLNDTLRLLGPNPKTVEDTIGEVLEKSIARLRDTAGISERAQIDTICSALAILRPLIPLSVLSAISGVAGSAIKSFALDLGRPLIV SGETIQFFDEPAETWFQRRFRPSAADLHQFITKLRPLTKDSSYAASVLPALMLEGNQLSELIELAISSQALPETSAVERRDIEL QRLQFALKAALRTGRYQDAAKLALKAGGECAGDNRQRVLLRDNIDLAAKFVGSNGVQELVSRNAFPDTGWPGSRNAYY AAILSEYPELSGEARSRLRLTMEWLTNWSQLPDDERSRQNVTDQDRAVMLIACLNIHGAEAAARELRRWRPRKLSFDAGK IVAMQLLAHARYDELDQLAIAAGNDISLVMGIVLEARKLHRPVAEQAIRRTWRLLKSQRVSIKDRNHANNQTIAAITGMV EMALIQSVCTESESIQLLDRYLPKVPPYALTSEYSKERVAYVRAYALQANLMGSQLALSDLASTEVKKELMAEKRHGESD DLRQLKQYSGVLIPWYNLWAKVILGKTRKADLESELSDTQKESTAIKGHSYSEHSLSSNEIANVWFDILIEAGNVSKDDVE NIIKWSQHKGNRVFTPTLHRFSSVCAEISGLGELSYHFAELALSLWRDEHSDAQIKADGYIDLSRSLISLDEPEAKEYFNQAI EVTNKLGDENLSRWEAILDLAEYVAGKTQVPPEISYKLARCAELTREYVDRDKHFAWSDTVEILAELCPSSALAIISRWRD RTFGNHRSILAWTIEHLVKKNKINALDALPLITFENDWHKCDLLDSVLSSCTDDKDKIMAFEVVYHYTKFNVQNIQNLKKL DAISTSLGIEHTELKERISGLQHTETVSKKSSLSSNDNEQGHDQEWESIFKDCDLSSIDGISAAYEKFRNVPEFYSKETFIKKAI SRVKTGKECSFITAIGAIFHWGLYDFKYILESIPDEWTSRLSIKTTLAGLIKEYCQRFCMRIRKSRVYEIFPFSLASRLSGISEKE IFGITLEAIAESPEPANSDRLFSLPGLLVSKLESNEALDVLSYALDLFDEVLKDEDGDGPWNEKLSPPTHVEDSLAGYIWARL GSPEAEMRWQAAHAVLALCRMSRTCVIQGIFQHAINATTLPFCDRNLPFYTLHAQLWLMIAAARVALDDGKSLIPNIGYFY HYATTDQPHVLIRHFAARTLLALHDSDLISIPAQEENKLRNINQSTTLPVLDKVEDHRGEDSYTFGIDFGPYWLKPLGRCFG VSQKQLEPEMLRIIRDVLGFKGSRNWDEDERNKRRYYQDRDNHHSHGSYPRVDDYHFYLSYHAMFMTAGQLLATKPLV GSDYDDVEDVFQDWLRRHDISRNDHRWLADRRDIPPKERSSWLNSSSDNRDEWLASISENVFNETLCPSPGLLTLWGRWS DVCSDRKESIIVHSALVSPERSLSLLRALQTTKNVYDYKIPDAGDNLEIDHAHYQLKGWIKDIAEYCGIDEFDPWAGNVRFP IPEPASFIIDAMKLTTDKDHRVWYSPSDVEPAMISSIWGHLSGKNDEEKSHGYRLCASIHFIKSALETFNMDLILEVDVDRYS RNSRYERNNENELDNIPSSTRLFLFRHDGTIHTLYGNYRNGEKTS* (SEQ ID NO: 338) 38 MAHHIAELIYDAEHCTDDIVRTAKQAEIRDSIWSFWSNRYELPIGSRPFQELEPILRTLKGLDPENEQPRFFSPYRDLINVEKE TSEVQKWLTAAKDIDSAAKILIDYCLSLAAENAIDKSQEWVELAQKAGLNKDVDLLEIRIFQLRGTPANTDNPNNAQRRIL EKRQKRLEAFLLLGSQLNEQLKSQLEALPAIEDEPTDDDEDF* (SEQ ID NO: 339) 39 MVKPNWDNFKAKFSENPQGNFEWFCYLLFCQEFKMPAGIFRYKNQSGIETNPITKDNEHGWQSKFYDTKLSDNKADLIEM IEKSKKAYPGLSKIIFYTNQEWGQGRKSHEPEGDKNADNYLETVGNSNDPKIKIEVDQKAYESGIEIVWRVASFFESPFVIVE NEKIAKHFFSLNESIFDLLEEKRKHTENVLYEIQTNIEFKDRSIEIDRRHCIELLHENLVQKKIVIVSGEGGVGKTAVIKKIYEA EKQYTPFYVFKASEFKKDSINELFGAHGLDDFSNAHQDELRKVIVVDSAEKLLELTNIDPFKEFLTVLIKDKWQVVFTTRN NYLADLNYAFIDIYKITPGNLVIKNLERGELIELSDNNGFSLPQDVRLLELIKNPFYLSEYLRFYTGESIDYVSFKEKLWNKII VKNKPSREQCFLATAFQRASEGQFFVSPACDTGILDELVKDGIVGYEAAGYFITHDIYEEWALEKKISVDYIRKANNNEFFE KIGESLPVRRSFRNWISERLLLDDQSIKPFIAEIVCGEGISNFWKDELWVAVLLSDNSSIFFNYFKRYLLSSDQNLLKRLTFLL RLACKDVDYDLLKQLGVSNSDLLSIKYVLTKPKGTGWQSVIQFIYENLDEIGIRNINFILPVIQEWNQRNKVGETTRLSSLIA LKYYQWTIDEDVYLSGRDNEKNILHTILHGAAMIKPEMEEVLVKVLKNRWKEHGTPYFDLMTLILTDLDSYPVWASLPEY VLQLADLFWYRPLKETGERYHSMDIEDEFGLFRSHHDYYPESPYQTPIYWLLQSQFKKTIDFILDFTNKTTICFAHSHFAKN EIEEVDVFIEEGKFIKQYICNRLWCSYRGTQVSTYLLSSIHMALEKFFLENFKNADSKVLESWLLFLLRNTKSASISAVVTSIV LAFPEKTFNVAKVLFQTKDFFRFDMNRMVLDRTHKSSLISLRDGFGGTDYRNSLHEEDRIKACDDVHRNTYLENLALHYQ IFRSENVTEKDAIERQQVLWDIFDKYYNQLPDEAQETEADKTWRLCLARMDRRKMKITTKEKDEGIEISFNPEIDPKLKQYS EEAIKKNSEHMKYVTLKLWASYKREKDERYKNYGMYEDNPQIALQETKEIIKKLNEEGGEDFRLLNGNIPADVCSVLLLD YFNQLNNEEREYCKDIVLAYSKLPLKEGYNYQVQDGTTSAISALPVIYHNYPMERETIKTILLLTLFNDHSIGMAGGRYSVF PSMVIHKLWLDYFDDMQSLLFGFLILKPKYVILSRKIIHESYRQVDYDIKKININKVFLNNYKHCISNVIDNKISIDDLGSMD KVDLHILNTAFQLIPVDTVNIEHKKLVSLIVKRFSTSLLSSVREDRVDYALRQSFLERFAYFTLHAPVSDIPDYIKPFLDGFNG SEPISELFKKFILVEDRLNTYAKFWKVWDLFFDKVVTLCKDGDRYWYVDKIIKSYLFAESPWKENSNGWHTFKDSNSQFF CDVSRTMGHCPSTLYSLAKSLNNIASCYLNQGITWLSEILSVNKKLWEKKLENDTVYYLECLVRRYINNERERIRRTKQLK QEVLVILDFLVEKGSVVGYMSRENIL* (SEQ ID NO: 340) 40 MQVQHHTEPNLKNEIVALFKASQLIPFFGSGFTRDIRAKNGKVPDAIKFTELIRNIAAEKEGLTQTEIDEILRISQLKKAFGLL NMEEYIPKRKSKALLGNIFSECKLSDHEKTKIINLDWPHIFTFNIDDAIENVNRKYKILHPNRAVQREFISANKCLFKIHGDIT EFIKYEDQNLIFTWREYAHSIEENKSMLSFLSEEAKNSAFLFIGCSLDGELDLMHLSRSTPFKKSIYLKKGYLNLEEKIALSEY GIEKVITFDTYDQIYQWLNNTLQNVERKSPTRSFELDDSKLMKEEAINLFANGGPVTKIVDNKRILRNSITFSQRDVCDDAIK ALRNHDYILITGRRFSGKSVLLFQIIEAKKEYNASYYSSTDTFDPSIKNSLIKFENHIFVFDSNFFNAQSIDEILTTRVHPSNKV VLCSSFGDAELYRFKLKDKKILHTEIQIKNNLINEEGNYLNDKLSFEGLPLYKSSETLLNFAYRYYSEYKNRLSGSNLFNKQ FDEDSMFVLILIAAFNKATYGHINSHNKYFDIQNFISQNDRLFELESTNTDPSGVIICNSPSWLLRVISEYIDKNPASYKTVSD LHSLASKGFLAASRNLISFDKLNELGNGKNVHKFIRGIYKEIAHTYREDMHYWLQRAKSELISAHTIDDLVEGMSYASKVR LDSAEFKNQTYYSATLVLAQLSARALSINNDKIYALSFFESSLESIRNYNNNSRHINKMMDKNDGGFRYAIQYLKDNPLIEL LPRKDEVNELINFYESRKK* (SEQ ID NO: 341) 41 MQFITNGPDIPDELLQAHEEGRVVFFCGAGISYPAGLPGFKGLVELIYQRNGTTLSEIEREVFERGQFDGTLDLLERRLPGQR IAVRRALEKALKPKLRRRGAIDTQAALLRLARSREGALRLVTTNFDRLFHVAAKRTGQAFQAYVAPMLPIPKNSRWDGLV YLHGLLPEKADDTALNRLVVTSGDFGLAYLTERWAARFVSELFRNYVVCFVGYSINDPVLRYMMDALAADRRLGEVTPQ VWALGECEPGQEHRKAIEWEAKGVTPILYTVPAGSTDHSVLHQTLHAWADTYRDGIQGKKAIVVKHALARPQDSTRQDD FVGRMLWALSDKSGLPAKRFAELNPAPPLDWLLKAFSDERFKYSDLPRFCVSPHVEIDPKLRFSLVQRPAPYELAPQMSLV SGCVSASKWDDVMSHIARWLVRYLGDPRLIIWIAERGGQIHDRWMFLIESELDRLAALMRERKTSELDEILLHSPLAIPGPP MSTLWRLLLSGRVKSPLQNLDLYRWQNRLKNEGLTTTLRLELRGLLSPKVMLRRPFRYSEDDSSSTDEPLRIKQLVDWEL VLTADYVRSTLFDLADESWKSSLPYLLEDFQQLLRDALDLLRELGESDDRHDRSHWDLPSITPHWQNRGFRDWVSLIELLR DSWLAVRAKDSDQASRIAQNWFELPYPTFKRLALFAASQDNCIPPERWVNWLLEDGSWWLWATDTRREVFRLFVLQGR HLTGIAQERLETAILAGPPREMYEDNLEADRWHYLVAHSVWLCLAKLRGAGLVLGESAATRLTEISTAYPKWQLATNERD EFSHWMSGTGDPGFEESIDVDIAPRKWQELVQWLAKPMPERLPFYEDTWSDVCRTRFFHSLYALRKLSQDDVWPVGRWR EALQTWAEPGMILRSWRYAAPLVLDMPDAVLQEISHAVTWWMEEASKTILCHEEILLALCRRVLMIETSPESSTIRNGIETY DPVSTAINHPIGHVTQSLITLWFKQNPNDNDLLPVELKTLFTKLCNVQIELFRHGRVLLGSRLIAFFRVDRPWTEQYLLPLFA WSNPVEAKAVWEGFLWSPRLYEPLLIAFKSDFLESANHYSDLGEHRQQFAIFLTYAALGPTEGYTVEEFRTAISALPQEGLE VAAQALYQALEGAGDQREEYWKNRVQPFWQQVWPKSRNLATPRISESLTRMVIAARGEFPAALAVVQDWLQPLEHLSY DVRLLLESDICSRYPADALSLLNAVIAEQHWGPRELGQCLLQIVQAAPQLEQDVRYQRLNEYSRRRSV* (SEQ ID NO: 342) 42 MTNKNKIKPLLNNISARLWDGRAAILIGAGFSRNAKPLTSKARKFPMWNDLGDIFYESVYCKKNDNRYSNVLKLGDEVQA AFGRATLDKLIMDHVPDKEYEPSKLHVSLLSLPWIDVFTTNYDTLLERASVNVDSRKYDIVLNKNDLMNAERPRIIKLHGS FPSERPFIVTEEDYRKYPLENSPFVNTVQQSLIENTLCLIGFSGDDPNFLNWIGWIRDNLGTENSPKIYLIGLFSFNEAQRKLL EKRNISIVDLSFLGDFGKDHYLAHQRFIQFLYESKNRDNLIEWPIETNYDRIVFNDGIELKTEKIKKCILEWAQSRQSYPNWL ILPESNRSNLWQNTIDWLSVANYDVAWDGSDDLDFGYEITWRLNKALLPIFNDTSEFLFKLIEKYEINYVSGINNKIIDFDEK YSHITLSLMRFCRQENLIDKWKNLNDLLIQNLDRLTPEVKSDYYYENILFSYFNLNFDEARNKLSNWETNKLLPHHEIKRA GLLAEFGMLDEAINLLEETLSTIRRNSLLSSRNIDYSSESQEAYGIYILRMFKRSLRLDSKDDDYSSEYNSRLATLSQYRSDPE NEIKYLEIKLESLPGTFKNTNDTDFDLNKRTVTTYLGGSPTEVRSLDAFSFFLLAEELGLPFHIPGMNIFSGIVENAARHIYQY SPEWAIFSIFRTFNKDKAKSLFNRNRISSLERKKVEDLFDGYYKKYEQIITKKIEDRLNDKLEIEISTLSIIPEILSRLVTKVSFN KKKDIIHLLLKLFNSDNFHQYMETKDLLKRTISNLSDLQKISLIDIFIDFPSAPPNTQLHMGQRYNFLTPFECLLGVTITPPKEN SKKIASAKLKKDINDLKSDNLDLRKAVSQKLITLYNLEMLNKSDTTKLIKNLWSKRDNFGFPIGSGYYKFFFINNLNPDNEN IADKFISIIKTYKFPVQEGKRVSITGGLDEYCTELNGALHHISLPEKTLSEIISKIHDWYVKDRAWLEKRDDLAKEFTLRFRNI TNIITTILEHHKDKLHAESINEISSLLDKMKEDKIPVNSAVTMLCLKNKSTYLERIKDIENGLYSFNKDDVIEAINSTYVFIRN NEFPLTIIQAISDKIAWDRNPRLPDCYNLIAYIINSCEFTLPDYLIEKILRGLAYQINIDDRDFVDNNEYLNHLEKKLSATKLA ASMFRKNETLGIDQPSIIQEWKNMCNSRNEFDEIRNEWNNNI* (SEQ ID NO: 343) 43 MSIYQGGNKLNEDDFRSHVYSLCQLDNVGVLLGAGASVGCGGKTMKDVWKSFKQNYPELLGALIDKYLLVSQIDSDNNL VNVELLIDEATKFLSVAKTRRCEDEEEEFRKILSSLYKEVTKAALLTGEQFREKNQGKKDAFKYHKELISKLISNRQPGQSA PAIFTTNYDLALEWAAEDLGIQLFNGFSGLHTRQFYPQNFDLAFRNVNAKGEARFGHYHAYLYKLHGSLTWYQNDSLTV NEVSASQAYDEYINDIINKDDFYRGQHLIYPGANKYSHTIGFVYGEMFRRFGEFISKPQTALFINGFGFGDYHINRIILGALLN PSFHVVIYYPELKEAITKVSKGGGSEAEKAIVTLKNMAFNQVTVVGGGSKAYFNSFVEHLPYPVLFPRDNIVDELVEAIANL SKGEGNVPF* (SEQ ID NO: 344) 44 MSLFKLTEISAIGYVVGLEGERIRINLHEGLQGRLASHRKGVSSVTQPGDLIGFDAGNILVVARVTDMAFVEADKAHKANV GTSDLADIPLRQIIAYAIGFVKRELNGYVFISEDWRLPALGSSAVPLTSDFLNIIYSIDKEELPKAVELGVDSRTKTVKIFASV DKLLSRHLAVLGSTGYGKSNFNALLTRKVSEKYPNSRIVIFDINGEYAQAFTGIPNVKHTILGESPNVDSLEKKQQKGELYS EEYYCYKKIPYQALGFAGLIKLLRPSDKTQLPALRNALSAINRTHFKSRNIYLEKDDGETFLLYDDCRDTNQSKLAEWLDL LRRRRLKRTNVWPPFKSLATLVAEFGCVAADRSNGSKRDAFGFSNVLPLVKIIQQLAEDIRFKSIVNLNGGGELADGGTHW DKAMSDEVDYFFGKEKGQENDWNVHIVNMKNLAQDHAPMLLSALLEMFAEILFRRGQERSYPTVLLLEEAHHYLRDPYA EIDSQIKAYERLAKEGRKFKCSLIVSTQRPSELSPTVLAMCSNWFSLRLTNERDLQALRYAMESGNEQILKQISGLPRGDAV AFGSAFNLPVRISINQARPGPKSSDAVFSEEWANCTELRC* (SEQ ID NO: 345) 45 MDRSAVDTIRGYCYQVDKTIIEIFSLPQMDDSIDIECIEDVDVYNDGHLTAIQCKYYESTDYNHSVISKPIRLMLSHFKDNKE KGANYYLYGHYKSGQEKLTLPLKVDFFKSNFLTYTEKKIKHEYHIENGLTEEDLQAFLDRLVININAKSFDDQKKETIQIIK NHFQCEDYEAEHYLYSNAFRKTYDISCNKKDRRIKKSDFVESINKSKVLFNIWFYQYEGRKEYLRKLKESFIRRSVNTSPYA RFFILEFQDKTDIKTVKDCIYKIQSNWSNLSKRTDRPYSPFLLFHGTSDANLYELKNQLFNEDLIFTDGYPFKGSVFTPKMLI EGFSNKEIHFQFINDIDDFNETLNSINIRKEVYQFYTENCLDIPSQLPQVNIQVKDFADIKEIV* (SEQ ID NO: 346) 46 MSRNNDINAEVVSVSPNKLKISVDDLEEFKIAEEKLGVGSYLRVSDNQDVALLAIIDNFSIEVKESQKQKYMIEASPIGLVK NGKFYRGGDSLALPPKKVEPAKLDEIISIYSDSIDINDRFTFSSLSLNTKVSVPVNGNRFFNKHIAIVGSTGSGKSHTVAKILQ KAVDEKQEGYKGLNNSHIIIFDIHSEYENAFPNSNVLNVDTLTLPYWLLNGDELEELFLDTEANDHNQRNVFRQAITLNKKI HFQGDPATKEIISFHSPYYFDINEVINYINNRNNERKNKDNEHIWSDEEGNFKFDNENAHRLFKENVTPDGSSAGALNGKLL NFVDRLQSKIFDKRLDFILGEGSKSVTFKETLETLISYGKDKSNITILDVSGVPFEVLSICVSLISRLIFEFGYHSKKIKRKSNEN QDIPILIVYEEAHKYAPKSDLSKYRTSKEAIERIAKEGRKYGVTLLLASQRPSEISETIFSQCNTFISMRLTNPDDQNYVKRLL PDTVGDITNLLPSLKEGEALIMGDSISIPSIVKIEKCTIPPSSIDIKYLDEWRKEWVDSEFDKIIEQWSKS* (SEQ ID NO: 347) 47 MIMSTPWLTPIVADSDHAEANAVSYEALTPTELDSDKAGCYISALNYAYEHPDIRNIAVTGPYGAGKSSVLKTWCKAHNG TLRVLTVSLADFDMQRHVDESNGDSSSDEGTKNTGSVEKSIEYSILQQILYKNKKHELPCSRIDRISDVTAGQILRSASFLTG TILLSGAALFFLAPDYVTTKLSLPGAFARYLLECPFGVRVSGAVASVMGSLCLLLNQLHRIGIFDRKVSLDKVDLLKGAVTT RASSPSLLNVYIDEIVYFFDSTKYDVVIFEDLDRFNNGRIFVKLREINQIINNCLSDRKPVKFIYAVRDGIFNSAESRTKFFDFV MPVIPVMDNQNAYEHFVKKFKEEEINNNLSECISRIATFIPNMRVMHNITNEFRLYQNLVNSRENLAKLLAMIAYKNLCAE DYHGIDSKKGVLYHFIQSYLDHEIQNELLHSANNELEDMAQSLVAITNEKLANRENLREELLMPYLSKNYSGALVFYTEGR QISLDDLIQDEDEFLMLLDKENIQVVTPYNRQNFLMINQRDTEKLKQQYEKRCHLIETKSVDNITRVKNNISSLESLRTEILS GTVADIAEKMTNEGFVAWIKKKEDTGVLTIQSEHEQIDFIFFLLSSGYLSTDYMSYRSIFIPGGLSETDNLFLKDVMSGKGPE KTFSFHLDNVNNIVERLKKLGVLQRDNAQHPAVIRWLIDNDPDTLKNNIMALLSQTGSQRVVSLLMLMQNDFTTYVRLRY LEIFMSDEHILNRLLAHLCASEERTPEQKFFVQEIAAHLLCLTEKSNIWQSVEINKRIGELIDSSPILITAVPKGYGDAFFEVLK DNTLSVSYIPGDVGDEKCSVIRKIAGAGLFKYSVSNLKNVYLCLTQDKNEERMSFSLYPFHCLESLAISELTEILWTNIEDFIL SVFIESEEIDRIPELLNSSEVSMTVVEQIIAKMDFCINNLDDIINRSECADNNASGRNIYSMLLQHDRIFPSFDNIIHLLHDTSIN TSGELVQWVNEKHFEFEPSDIVINDTGIFNNFISELICSPVISEEALLKVLSNLNVVIIDVPENIPLRNAELLCSEKKLAPTVNV FTVLFNALSENVDDINRMNTLLGNLIAQRPEIITQEPEDIFYIEGDFDEELASELFRHKLIGMNIKVAALRWLRDNKPGILDKS YLLSLDILAELSPWMGDDDLRLTLLKRCLVAGDAGKDALCVVLNSFADESYHGLLPHDRFRKIPHSVDLWEVAELISNLGF IQPPKMGSGRDEHKIVITPVRYVRDVEFYD* (SEQ ID NO: 348) 48 MFLNDQETSTDLLYYTAIASTVVRLVDETSDAPITIGVHGDWGAGKSSVLKMLEAACEKKDKTHCIWFNGWTFEGFEDAK TVIIETIVEDLVASRPMSTKVAEAAKKVLRRIDWLKMAKKAGGLAFTAFTGIPTFDQIKGMYELASDFLSAPQDKLSAADF KAFAEKAGGFIKEADTDSNTLPKHIHAFREEFRALLDAAEIEKLVVIVDDLDRCLPKTAIETLEAIRLFLFVEKTAFVIGADE AMIEYAVKDHFPDLPQSTGPVSYARNYLEKLIQVPFRIPALGTAETRIYTTLLLAENALGSEDDNFKALLNKAREEMKRPWI SRGLDREAVMAALNGKIPEVVENALLFSLHVTPMLSSGTHGNPRQIKRFLNSMMLRQAIADERGFGSDIKRPVLAKIMLAE RFYPSVYGKLVQLVSNHPEGKPEALAEFEALVRGGKTAPKSRADSKENSSESEDVQNWLKIDWAIGWAKAEPALSGEDLR PYVFVTRDKHSTLSNLVVSSHLIPIMEKLLGPKIGMVKIKGDLEKLSPPDADELFEMLSDKLFQEDSFNRKPRGFDGLEYLV ETQPHLQRRLIDFARRIPVKKAGGWLATRIAQSLVDPTLIEEYTKLIQEWASQDENLSLSKSAKATLQLSGYQH* (SEQ ID NO: 349) 49 MGTSKAYGGPVHGLIPDFVENPSPPTLPPVDPADDSTLDTPLIPPDSSGSGPLSTPKANFTRYSRSGSRSSLGKAVAGYVRNG VGGAGRASRRMGASRAAAGGLLGLISDYQQGGATQALERFNLGNLAGQSASTALLSLVEFLCPPGGSVDEGVARQAMLE TIADMSDVGEENFDELTPDQLKEVFIGFVVHSIEGRLMADIGKNGIKLPDDIDAIVSIQEDLHDFVDGATRTQLREELRNLTG LSGDAIDRKVEEIYTVAFELLAREGERLE* (SEQ ID NO: 350) 50 MSHHTLVARLGTDDNSDLQLSRQSTHLTEINFLKENGKLDFGLGQALNGLSDLGLTPMDVSVDLALLAATVTAADTRISR GHNAQDLWTREIALYIPVASPTLWNSQTGLLSRMLNFLTGDRWTIHFRSRPVIEHGLIQRSSKERSVNPTSVCLFSGGLDSFI GAIDLLSNGGTPLLISHYWDTTTSVYQQKCAQLLSERYGQSFSHVRARVGFEKTTIEGEDGENTLRGRSFMFFSLATMAAD ALGGPVTINVPENGLISLNVPLDPLRVGALSTRTTHPFYMARFNELLGNLGISAHLENPYAYKTKGEMAIHCHDHAFLRQH AADTMSCSSPQSTRWNPALNEQQSTHCGRCVPCLIRRASLFTAFGTDDTIYRIPDLRSRVLDSSKPEGEHVRAFQFALARLA RSPSRAKFDIHKPGPLSDYPDCLAEYEGVYLRGMKEVERLLSGVITRPLT* (SEQ ID NO: 351) 51 MKLAGQKPAPQWVDFHCHLDLYPNHSALIRECDISRVATLAVTTTPKAWMRNRELTSDSPYVRVALGLHPQLIAEREHEI ALLEHYLPSARYVGEIGLDASPRFYRSFEAQERIFSRILNACFEQGDKILSIHSVRAAAKVLGHLENTRLTENCKAVLHWFT GSISEARRAVELGCYFSINEEMLRSPKHRKLVSFLPFERILTETDGPFVFHEEKAIHPRDVQRTVHEIAQIHHVSDTDAAMRIL YNLRSLVTNSSHSENSS* (SEQ ID NO: 352) 52 MSTVDTSTAEELNQGGSDFILTSLEAMRKKLLDLTSRNRLLNFPITQKGSSLRIVDELPEQLYETLCSEIPMEFAPVPDPTRA QLLEHGYLKVGPDGKDIQLRAHPSAKDWAHVLGIRTDFDLPDSHKTVVSDSDRELLEKAHQFILQYAQGQNGKLTGIRSE YVNQGIALSALKEACCLAGYEGLEDFERQAKAGNEISISSSNPSHDDNRIQALLYPNELEACLRAIYGKAQTALEESGANIL YLALGFLEWYESDSSEKARYAPLFTIPVRCERGKLDPKDGLYKFQLYYTGEDILPNLSLKEKLQADFGLALPLFNEEETPES YFASVKKVVEQHKPKWSVKRYGALSLLNFGKMMMYLDLDPARWPCDKRNILSHEVIRRFFTSQSCGQENSGLPGGFGQH EYCIDSYPDIHDKVPLIDDADSSQHSALIDAIRGQNLVIEGPPGSGKSQTITNLIAAALLNGKKVLFVAEKMAALEVVKRRL DRAGLGQFCLELHSHKTHKRKVLDDINARLVSQATMPTMEEIDAQILRYEDLKQQLNEYAALINNQWAQTGKTIHQILSG ATRYRHKLDIDATALHIENLSGKQLDKVTQLRLRDQIVEFSRIYKEVREQVGANAEIYEHPWSGVNNTQIQLFDSARIVDLL QTWQTSIIDFQHSYQEYVDKWALEGESLNTLQYIEQLVEDQSNLPVLCGSEHFPALSELDSPDAIARVRHYLDRFELLQGH YVALSQVIEPQKLRLLEQGQSCDFPREELEKYGAAEDFTLRDLVRWLESIQSIHDELSSIYAQLNDFKNALPDGIASYIDDSQ AGLLFCSELLSILGALPTELIRVRDPLFDDDDIDAVLRDLMCQIETLRPLRDGLSTLYQLDQLPSQEMLAHAVAVIQQGGLF AWFKSDWRSAKALLMAQSRKPDTKFAELKRCSADLLKYSELLQRFEQSDFGNQLGNAFRGLDTDCEQLMLLRDWYKKV RACYGIGFGKRVAIGSGLFNLDGEIIKGVHLIEKSQISSRLMTLVKRVEHEAKLLPRISSLLEEHASWLGEQGVLMQSYRQV RNTLIALQGWFINPDISLEQMTHSSEILQNINDLQISLENDSLQLGAFLQLTPLACGAYKNNQLTLDTINDTLNFAEQLVDKI NCVSLATQIRHLASGSDYDLLCRDGGEIVSKWNEQIKNAELYALETKLERSQWLKSTDGSLNTLIERNERAIQQPRWLNG WVNFIRCYEQMHENGLQRIWSAVLAGSLPIEKVELGLALAIHDQLAREVIHIHPELMRVSGSQRNALQKSFKEYDKKLIEL QRQRIAAKIACRNIPEGNSGGKKSEYTELALIKNELGKKTRHIPIRQLVNRACNALVAIKPCFMMGPMSAAHYLEPGRMEF DLVVMDEASQVKPEDALGVIARGKQLVVVGDPKQLPPTSFFDRSADGEDDDDAAALSDTDSILDAALPLFPMRRLRWHY RSRHEKLIAYSNRHFYNSDLVIFPSPNAESPEYGIKFTYVSKGRFSNQHNIEEAQAVAEAVLHHAHHRPGESLGVVAMSSK QRDQIERAIDELRRNRPEFNDAIDGLHAMEEPLFVKNLENVQGDERDVIFISFTYGPSEHGGKVYQRFGPINSDVGWRRLN VLFTRSKKRMHVFSSMRSEDVLTSETSKLGVISLKGFLQFAESGKLDSLTTHTGRAPDSDFEVAVMEALNHAGFECEPQVG VAGFFIDLAVKDPGCPGRYLMGIECDGAAYHSAKSARDRDRLRQEVLERLGWRISRIWSTDWFSNPDEVLSPIIRKLHELK TLAPDVVVPSYEYVETIESSAEVASDSIDSLMPNLGLKEQLKYFATHVIEVELPNVDADRRLLRPAMLEALLEHQPLSRSEF VERIPHYLRQATDVYEAQRFLDRVLALIDGAEAEANDAAFESELA* (SEQ ID NO: 353) 53 MHRTISEFYRIPPLLIRALKSGISSVVEFHLNRGLPKDSRDSLGNSPLMIAAQYGHFAICEMLLSAGVDVEHQNNLGLRASDL AQEQKLRDLLARYRQPLSLAELERSVVSVEDSETEAELPSAEIPMDFMLWDAEVELKPAEDNLTLRHASAEAQQLLSRYRP KDNSAEWSDIELTLPEPLTPVSHSPQNYPHLSTLLIGALDTGRISLRDIWHAGEEDFGMQWPEFRLSVEALIRDLPLIVDDDD IIPPDAAPATLSVSEPLEPWFDAFNALRQFGIVENYLVDIRQWDVVDKTKEERLGQRMDTALINLIRILAGLSEAEYMQLLQ PNYLPEPAPEISEEEDVAEEADEEMPPVSDDDDDNDDTISFIELLVLLRSGKAGEYQDNHIPRPEYADLQQIVERARTLIPDE GHKISLYVSSYREAWEGLIHANLRLVVTIANKYRGRGLDVEDLIQEGNLGLIKAVEKFDYRRGFKFSTYATWWIRQKISRA IADQAQLIRLPVHFYEQFRRWRNSRDQLLYRQGITPTIKRLQALTDLPENQLKRMAKYEEQTVLIGDFHDDAQDSEAALSG DAILTGKDFTSAPVQSLELRECVSLVLETLLPREKQIIKMRFGIGMTQDFTLEEVGKQFDVTRERIRQIEAKALRKLRYHSRA SKLGGFVEQWETALSEMQEEEE* (SEQ ID NO: 354) 54 MTTMRHAPPNAAIMIEALRGLGYNTATALADIIDNSISAGARKVDLTFHWRESDSYIVVRDNGCGMSAAELDVAMRLGV KNPLTKRSGHDLGRFGLGLKTASFSQCRRLTVASKKEEITTILRWDLDILAASTDDGWYLLEGADPGSQEALANEEPDSHG TVVLWDVLDRIVTPGYGEKDFLNLMDGVEQHLAMVFHRFLEGNAPRLTLTLNGRKIKAWDPFLSGHPSKPWHSPSAMAP GAPAVKVECHVLPHQDHLTTQEYQQAQGPAGWTAQQGFYVYRNERLLVAGNWLGLGSPRAWTKDETHRLARIRLDIPN DADIDWKIDIRKSMARPPVSLRPWLTQLAQSTRDRAVRTFAKRGKMNKRKPGEELVQLWQAQKTPSGVRYQISLQHPVIS NVLSQAGELSPQIQAMLRLIEETVPVQQIWLDTAETKETPRTGFETAPPAEVLSVLQVMYQTMVGQQAMSPALAKQHLQN MEPFDNYPELIALLPDDQHEKSL* (SEQ ID NO: 355) 55 MSLNPLDDTQLSVLQIVQTFLQSQDKSTITPGILRQHIDMVCQMKPEWSRLDSREILVEELIRRYSIWMGEDSSLSNDEGHQ PWLTADAKREWRYWHRYRQWLGKTMPWGVLDTLDRSTDRVLGLLEQPGREGRWDRRGLVVGHVQSGKTSHYTGLICK AADAGYKIIIVLAGLHNNLRSQTQMRLDEGFLGYETSPLREKVTIIGVGAIDSDPVIRPNYVTNRSEKGDFSAGVAKNLGISP EQRPWLFVVKKNKSILKRLHTWIENHVATSVDPITGKRFVSELPLLMIDDEADNASVDTGEIVYDDDGKPDAEHQPTAINS LIRKLLMQFSRKAYVGYTATPFANIFIHESNETRDEGPDLFPSAFIINLGAPSNYIGPARVFGRATAEGRSGEFPLIRRVSDHC SDDGKRGWMPVSHKSSHYPTLDTLTHFPDSLKHAIDSFLLACCVRELRGQGEKHSSMLVHVTRFNKVQSVVYENIDAYIQ DVRQRLTRRIGHEPFLHQLESLWQADFLPTNQAIREVMPQQVPDDAFEWQEIVDKLYTVIENVSVRMINGTAKDALDYSD SATGLKVIAIGGDKLARGLTLEGLCTSYFLRASRMYDTLMQMGRWFGYRQGYLDVCRLYTTDELIEWFEHIADASEELRE EFDNMVASGGTPRDFGLKVKSHPVLMVTSPLKMRSARSLWLSFSGTVVETISLFKEQEYHKRNYVAFQRLTGRVGAGAPI PERRRGDKIEKWNGVIWQNISPEPIIDFLTEYETHAQARKANSKLLADFVTRMNRVDELTQWTVAVIGGGIDRHHDVCGFS VPLMMRKASEGVTDRYSIGRLLSPRDEGIDCDESTWLAALEETQRIFHADPGRNEGREEPVVPGGVVLRRIKGFGINDIPAQ RQKGLLLIYLLDPQQALSAAEYQEDALPVVAFGISFPGSRSGVTVEYKVNNVLWEQEYGAAE* (SEQ ID NO: 356) 56 MVRLSKDDLLAAWKALDRSQIDELPGAQGWRGIRLFTHQGCSFHAGRRQPDNEEMLIAVFPHPLSPGSAALPSCKGFRVE MAGTEEGGQNGLMIRRQQTGNVDVFTTMILDILHSLLNVSKPRLFETLLRRIRLWQAFMERDTRPLSQEEEVGLIGELTCLE RLIESGLAPSTAVEAWIGPQHGLQDFALDERAIEIKSTTAAKGFCITIHSLEQLDWQRAGSLVLCGLRFSEHPTGATLNDIISR LRQRFEGNATAACIFEGSLCHVGYFTEHAEFYTRHFLLTEAFALPIEADFPSLTHANVPLPVVSARYQLELQTLIPQAQDFN HCLSDFAGLPHGNY* (SEQ ID NO: 357) 57 MEIIDFLRQTQNEIRKEYQDQMAQPGVESPFPELIFTDIVMRHMADIGMTFDDAETCHFMAKVSGHNVRLSGYAFSEDGDQ LDLFVSIYHGSDELCHVPDAETKAIAGHCIQFLQKCVDGKLSSTLDQSNDAWQLVTTIEQSYAELEQIRIYVLTDGQVKTR WYQSRDVAGKTIKLEVMDIVRLFNHWQEGKPRDELQVNFDEVAGGALPCVWIPDEMGEYDYALTVVPGETLRFIYEKYG NRILEANVRSFLSQTGKVNKGIRDTLREQPERFMAYNNGIVIVADQVRLGEAPGGGPGIAWMQGMQIVNGGQTTASMFFT KKKFPATNLRNVRVPAKVIVLKQTNNAQEEMLIADISRFSNSQNKVNISDLSANRPVHVQLEKMANTVYCPDGYSRWFYE RANGSYKVMLEREGKTPAGIKRLKDAIPPSRRITKTDFAKYHCAWLQRPDLVSLGGQKNFAALMTMIDKDTERYGDELNI ETFKNYIAQAIIYKKAYKLINSLFPAFKANIAAYTVAAYSHLYGNKTDLAEIWNQQGIEETMGNRLVSLAHRVNSLLTESA NGRMISEWAKKPECWDYVRSKIYFSAQGKKDDFSHGEIA* (SEQ ID NO: 358) 58 MAYEAQISRTNPAAFLFVVDQSGSMSDKMSSGRSKAEFVADALNRTLMNLITRCTKSEGVRDYFEIGVLGYGGQGVSNGF SGSLGGQVLNPISALEQNPARVEDRKRKMDDGAGGIIETAIKFPVWFDPIASGGTPMREALTRAAEELVTWCDAHPDCYPP TILHVTDGESNDGDPEEIANHLRQIRTNDGEVLILNIHVSSLGNDPIRFPSSDTGLPDAYAKLLFRMSSPLPEHLVRFAQEKG HTVGIESRGFMFNAEAAELVDFFDIGTRASQLR* (SEQ ID NO: 359) 59 MKLEFLGTVPKDPEYPKANEDKFAFSEDGRRLALCDGASESFNSKLWADLLARKFTADPKVNPEWVASALAEYSATHDFP SMSWSQQAAFERGSFATLIGVEEFEEHQAVEILAIGDSITMLVDCGKLICAWPFDNPEKFNERPTLLATLYAHNNFVGGSTF WTRHGKTFYLEKLTQPKLLCMTDALGEWALKQALAEDSGFIELLSLQTEEELAELVLRERAAKRMHIDDSTLLVLSF* (SEQ ID NO: 360) 60 MPYPSLEQYNQAFQLHSKLLIDPELKSGTVATTGLGLPLAISGGFALTYTIKSGAKKYAVRCFHRESKALERRYEAISRKISS LRSPYFLDFQFQPQGVKVEGISYPIVKMAWAKGETLGEFLEVNRRSAQAIAKLSASIESLAAYLEKEKIAHGDFQTGNLMV SDGGATVQLIDYDGMFVDEIKTLGSSELGHVNFQHPRRKATNPFNHTLDRFSLISLWLALKALQIDPSIWDKSNSELDAIIFR ANDFVDPGSSSILGMLSGIQQLSTHVKNFAAVCASAMEKTPSLGDFIASKNIPISLASISMNGDIPVSRLKPGYIGAYTVLSAL DYSACLQRVGDKVEVIGKIIDVKLNKTRNGKPYIFVNFGDWRGNIFKISIWSEGISALPSKPDASWIGKWISVIGLMEPPYVS GKYKYSHISITVTTIGQMTVLSEPDARWRLAGPNESRQTLTSTSSNQEALERIKSKSTTSTPMPMNTNATTANQAILNKLRA STQTVAAARAQTQHVVPNKSSTHYVAPTGTSASQPVQNIPSPASTSKQQTSQKNIVTKILKWLFG* (SEQ ID NO: 361) 61 MNEHLSHMDVHTLFEEMDEQADGITFKYSFDDIAKSNALVVTEFVNFERDSTVALLASLLTLPAHQSQCLRFELLTSLALIH CKGQQIANIDDVKRWYVTIGESSSIVGEDPAEDVFVALVDNKKGDYRVLEGVWEAAGFYTQLMVEIVSDMPDTHRYRSL KLAIQAILRLSDVICARSGLYRFQEGADEFPDSLDTAGLDEKTLCSRVTLSERSLRAEGIKLADLAPFILEPSHISMLGNQVPG EGMLEQRPLLRTRDGIVVVLPTAMTIALRQAVITFAKRTEELSELDKALANVYSLTFSEMPVFGNGGRLRRLTWEKYKMS RTTMVTSIVDAGHLMVLQFVLPSIQQYADTGFNNLLQLDEETTQFLDNSVEQITVDLAKQPGFQRGIVVRIACGWGAGFM GVPPQLPDGWGFEWMSGADFVRFGALPDMSPIAFWRVQDAVETIRQAGVRLINMSGTLNLLGWIRANDGHMVPHDQLP DDRITPEHPLMLMIPTNLLRGIRIAADTGYDRHRISDNNGKWHRVMRPSAEDFFPTERQSKCYASIDDLEAQRLTCVYEGQ GNLWVTLEAPEMEDWMLLVELAKMVRTWIGRIGEALEVLSEQPIKKSLKVYLHFDGNDNIGRFDGENFSDDMNTFWRLE RIHEHGAIRVVLQDGYLAGFRLPDNRAERALVRALGTAFATLLRMKEPVDKGVTVEQIAVPNDRARSFHIMQAYDFNQYL GRSLTKRLLAIEDIDSAAARIELAWRAVSTDAPSRYQGKKEVGKLLNDVVDVLIQDLLSELSRFDRKQTVMRLLENVVKA RCEEAHWRSTAAAVLGLHAGEEGVEETIAQEMSRYAGAALTSRLIIELAICVCPTSGGIEPSDMALSKLLARASLLFRIGGM SDAVRFGALPADIRISPLGDLLFRDELGKMVLEPMLSKVTNERFEEQAAQFEQHYVKTAGGDDENSKQDSVAAETTEDQT DIFLAFWKAEMGFTLEDGMRFIQFLESIGIEQESAIFEMRRSQLADAAKSAGLADETIDAFLNQFILSARPKWDVVPDGFDL SDIYPWRFGRRLSVAVRPLLQIEESHDPLIVIAPGLLNLSLKYVFDGAYTGQFKRDFFRTEGMRDTWLGGAREGHTFEKTLE RELREIGWTVRRGIGFPEILRRNLPGDPGDIDLLAWRSDRNQVLVIECKDLSLARNYSEVASQLSEYQGDDIKGKPDKLKK HLKRVLLAKENIDNFAKFTSIANPEIVSWLVFSGASPIAYAQSKIEALAGTNVGRPSDLLNF* (SEQ ID NO: 362) 62 MVGSRWYKFDFHNHTPASHDYKIPDISPREWLLAYMKQHVDCVVISDHNSGAWVDVLKGELENMSRDASTGDLPEFRPL TLFPGVELTATGNVHILAVLHTHSTSADVERLLAQCNNNSPIPSEVPNHQLVLQLGPAGIISNIRRNPKAVCILAHIDAAKGV LSLTNQAELTAAFQESPHAVEIRHRVEDITDGTRRRLIDNLPWLRGSDAHHPEQAGVRTCWLKMSSPDFDGLRHALLDPEN CVLFDQLPPEEPASYLRSLKFRTRHCHPVGQDSASVEFSPFYNAVIGSRGSGKSTLIESIRLAMRKTEGLTATQGSKLDQFIR TGMEADSFIECIFHKEGTDFRLSWRPDSKHELHIFSDGEWMPDSHWSADRFPLSIYSQKMLYELASDTGAFLRVCDESPVV NKRAWKERWDQLEREYLNEQITLRGLRARQGSADSLRGELSDAERAVSQLQSSAYYPVCRQLALARNELSAATLPLEHFE RRIAAIQALAEEPLQRSDIPPEPSGLLMAFMARLSSVQQQYDQRLNTLLAEYAAELAGIRREQSFIALRTAVSDQETNVESE AVSLRARGLNPDVLNELMARCESLKNELRNYDGLDGAISASVARSEQLLAEMRAHRMALTDNRKAFLSSLSLSALEIKILP LCAPYEDVISGYQTVTGISNFAERIYDNSDGSGLLSDFISERPFSPLPAATEKKYRALDELKALHHSIRLDNSEAGAGLHGSF RNRLRSLNDQQLDALQCWYPDDGIHIRYQTPGGQMEDIAFASPGQKGASMLQFLLSYGTDPLLLDQPEDDLDCLMLSMSV IPAIMSNKKRRQLIIVSHSAPIVVNGDAEYVISMQHDRTGLYPGLCGALQEAPMKALICRQMEGGEKAFRSRYERILS* (SEQ ID NO: 363) 63 MDYLSEVLKIIEGATKANASMASNYAGLLADKLEQKGEVKQARMIRERLLRAPQALAGAQRAGGGISLGSLPVDIDSRLN TVDVSYPKLDSSEIFLPAAISTRVEEFITNVQRYDEFVKADAALPSRMLVYGKPGTGKTMLSKYIATRLDFPLLTVRCDTLIS SLLGQTSKNLRQVFDYVMQRPSVLFLDEFDALAGARGNERDIGELQRVVISLLQNMDAASEDTVIIASTNHEQLLDPAIWR RFSFRIPMPLPDIHQRELIWKNRLKNMICSDLDLSDLSRKSEGLSGAIIEQVSLDARRDAVIEGASVINHHKLYRRLYLAQSL MEGVNLSTYEDEIRWLRSKDKKLFSIRVLANLYKLTSRVISNILKESGAYEQKGYTV* (SEQ ID NO: 364) 64 MSRRGTQFSNAKVTNPMLRIPFSSSDLGAIVNAGGGAKVLVDVTAEYRQGLVRNLTTSKHYLESKLSEYPGSLGTLVFKLR DQGIAKTHRPNKIAQEAGLQNAGHAKIDEMLVAAHAGCFDVLESVILHRNIKAILANLSAIERIEPWDENRKVPGGTDGLF ESSNILVRLFEYTGEDATYNNYENVISILEQHGVKYDEIRQKCGLPLLRIMDLSPNDRYILDILIDYPGIRTLIPEPKYSAFPVS VSDSVGIETNSFPVPSEELPIVAVFDTGVSPIAATITPWVVSRETYVIPPDTSYEHGTMVSSLISGAHFLNDNHPWIPDTKSKI HDVCALDENGSYISDLILRLADAVNKRPDIKVWNLSLGGGPCNEQTFSDFAMELDRLSDKFGILFVVAAGNYVDEPIRTWP NPDPLGGADLISSPGESVRALTVGSVSHMEANDALSEIGTPTPYTRRGPGPVFTPKPDIIHAGGGVHRPWNVGASSLKVVGP DNRLCSNFGTSFAAPIVASLAAHTWQRIATNTDFNVSPSLIKALLIHSAQLSSPDYSPSERRYLGAGIPNEVIETLYDSDDRFT LIFQTFLVPGVRWRKDNYPIPSALIQNGKFKGEIVITAAYAPPLNPNAGSEYVRANVELSFGLIENNTIKGKVPMEGENGQS GYERAQIEHGGKWSPVKIHRKAFNKGITSGNWALQAKTTLRANEPALMEPLPVTIVVTLKSLDGNTQVYADGVRALNAN NWAHYPLPARVPVSV* (SEQ ID NO: 365) 65 MKTVRSACQLQPKALEINVGDQIEQLDQIINDTNGQEYFKKTFITDGFKTLLSKGMARLAGKSNDTVFHLKQAMGGGKTH LMVGFGLLAKDAALRNSHLGSMPYQSDFGSAKIAAFNGRNNPHSYFWGEIARQLGREGVFREYWESGAKAPDEQAWINI FDGEEPILILLDEMPPYFHYYSTQVLGQGTIADVVTRAFSNMLTAAQKKKNVCIVVSDLEAAYDTGGKLIQRALDDATQEL GRAEVSITPVNLESNEIYEILRKRLFLSLPDKNEVSEIASIYASRLAEAAKAKTVERSAEALANDIESTYPFHPSFKSIVALFKE NEKFKQTRGLMELVSRLLKSVWESDEEVYLIGAQHFDLSIHDVREKLAEISEMRDVIARDLWDSTDSAHAQIIDLNNGNHY AQQVGTLLLTASLSTAVNSVKGLTESEMLECLIDPNHQGSDYRNAFTELAKSAWYLHQTQEGRNYFSHQENLTKKLQGY ADKAPQNKVDELIRHRLEEMYRPVTKEAYEKVLPLPEMDEAQATLRSGRALLIISPDGKTPPGVVGNFFKGLVNKNNILVL TGDKSSIASIEKAARHVYAVTKADNEITASHPQRKELDEKKAQYEQDFQTTVLSVFDKLLFPGNNRGEDVLRPKALDSTYP SNEPYNGERQVVKTLTSDPIKLYTQINENFDALRARAESLLFGTLDEARKTDLLDKMKQKTQMPWLPSRGFDQLAIEAYQ RGVWEDLGNGYITKKPKPKTTEVIISEDSSPDDAGTVRLKIGVANAGNSPRIHYAEDDEVTESSPVLSDNTLATKALRVQFL AVDPTGKNLTGNPTTWKNRLTLRNRFDEVARTVELFVAPRGTIKYTLDGSEARNGETYTVPIQLADQEATIYVFAECDGLE EKRNFTFAAAGSKEIPIIKDKPATLVSPSPKRMDSSAKTYEGLKIAKEKGIEFEQISLMVGSAPKVIHISLGEMKISAEFIETVL THLQTVLSPEAPVVMTFKKAYTQTGHDLEQFVKQLGIEIGNGEVEQR* (SEQ ID NO: 366) 66 MNKTVDFGAPSEFGMHHFYVEIPAAPRDAVVIYEDYGFDGEDSRRETVECRLILARELWTKIRDDVRRDFNARLKIKKQSS GTWSTGKVKLDRFLGRELCVLGWAAEHASPDECLVICQKWLALRPEERWWLYSKTAAEAGRDDQTQRGWRKALYCAL SDGANIKLETKKKPKSKKLQVEDETQDLFGFMEKGEF* (SEQ ID NO: 367) 67 MALQPFEWRDKPSLIEHLFPVQKISAETFKERMASHGQLLVSLGAFWKGRKPLILNKACILGSLLPATDNPLEDLEVFELLM GIDSESMQKRIEASLPASKQETIGDYLVLPYAEQIRIAKRPEEIDESLFVHIWNRVNNHLGTSAHTFAQLVEELGVARFGHRP RVADVFSGSGQIPFEAARLGCDVYASDLNPISCMLTWGALNVVGASAQKRVEIDKAQRDIVKKVQKEIDELDIESDGRGW RAKVFLYCVEVTCPESGWRVPLIPSLIISNSFRVVAELKPVPAERRYDISIREVSTDEELEFYKSGTIQDGEVIHSPDGKTQYR VNIKTIRGDYKEGKENLNKLRMWEKTDFAPRPDDIFQDRLFCVQWMKKKPKGSQYYYEFRTVTNDDLKREKKVIEHVAS KLDDWQKQGLVPDMVIEAGDKTDEPIRTRGWTHWHHLFHPRQLLFLSLVNKYSLAEGKFNFLQCMNHLSKLTRWRPQA GGGGGSAATFDNQALNTLYNYPVRATGSIENILAAQHNHCGISENVSFVVNSHPAPELDVENDIYITDPPYGDAVKYEEITE FFIAWLRKNPPKEFAHWTWDSRRSLAVKGEDEGFRTGMVAAYRKMAQKMPDNGLQVLMFTHQSGAIWADMANIIWAS GLQVTAAWYVVTETDSALRGGSNVKGTIILILRKRHQALETFRDDLGWEIEEAVKEQVESLIGLDKKVRSQGAEGLYTDA DLQMAGYAAALKVLTAYSRIDGKDMVTEAEAPRQKGKKTFVDELIDFAVQTAVQFLVPVGFEKSEWQKLQAVERFYLK MAEMEHQGAKTLDNYQNFAKAFKVHHFDQLMSDASKANSARLKLSTEFRSTMMSGDAEMTGTPLRALLYALFEISKEVE VDDVLLHLMENCPNYLPNKQLLAKMADYLAEKREGLKGTKTFNPEQEASSARVLAEAIRNQRL* (SEQ ID NO: 368) 68 MAIKRFSSRTERLDTEFLAESLKGAAKYFRIAGYFRSSIFELVGEEIAKIPEVKIICNSELDLADFQVATGRNTALKERWNEV DVEAEALLKKERYQILDQLLHSGNVEIRVVPRERLFLHGKAGSIHYADGSRKSFIGSVNESKSAFAHNYELVWQDDDEESA DWVEREFWALWTEGVPLPDAILAEIHRVSNRREVTVDVLKPEEVPAAAMAEAPIYRGGEQLQPWQRSFVTMFLEHREIYG KARLLLADEVGVGKTLSMATSALVSALLDDGPVLILAPSTLTIQWQIEMMDKLGVPAAVWSSQKKVWLGVEGQILSPRG DASSIKKCPYRIAIISTGLIMHQREKTDFVKEAGMLLKNRFGTVILDEAHKARIRGGLGDQASEPNNLMAFMLQIGRRTRHL VLGTATPIQTNVRELWDLLGILNSGAEFVLGDALSPWHDHEQAIPLITGQTQVTSEAEVWHWLSNPLPPSNEHHTVQQIRD YLSIDNKSFGYSHRFEDLDYMIQSLWLSECMTPSFFKENNPILRHTVLRKRKQLEDDGLLERVGVNTHPIKRNLAQYQSRF VGLGIPTNTPFQVAYEKAEEFSKLLQSRTRAAGFMKSLMLQRICSSFASGLKTAQKMLKHTVSDEDEDLVEDVEHLLSEMT PAEVACLREIETQLSRPEAVDSKLNTVKWFLTEFRTDGKTWLEHGCIIFSQYYDTAEWIAKELAKSLKGEVVAVYAGVGK SGLFRGEQFNNVERELIKSAVKTREILLVVATDAACEGLNLQTLGTLINVDLPWNPSRLEQRLGRIKRFGQTRKFVDMLNL VYSETQDEKVYNVLSERLRDTYDIFGSLPDTIDDEWIDNEEELNTRMDEYMHERKKAQDAFSVKYRGTLDPDAHLWERC ATVLSRRDIVSKLSEPWGS* (SEQ ID NO: 369)

TABLE 16A Additional tested homologs of predicted defense systems System Observed # Source Pro- # Name Activity Genes Organism Strain moter Codon Gene A Gene B 1 Retron-TIR + 1 Escherichia coli NCTC9024 Native Native STF89551.1 — 2 Retron-TOPRIM − 1 Escherichia coli NCTC13441 Native Native WP_000476153.1 — 5 RT-nitrilase − 1 Escherichia coli N1 Native Human WP_001121606.1 — (UG1) 7 RT (UG3) + RT − 2 Escherichia coli NCTC9091 Native Native STJ76581.1 STJ76580.1 (UG8) 7 RT (UG3) + RT − 2 Salmonella NCTC6026 Native Native WP_001530977.1 WP_001185451.1 (UG8) enterica 7 RT (UG3) + RT − 3 Acinetobacter NCTC7412 Native Native WP_000227776.1 WP_000620968.1 (UG8) calcoaceticus 8 RT (UG15) + 1 Escherichia coli STEC66 Native Human WP_032207424.1 — 10 ATPase + + 2 Escherichia coli NCTC11116 Native Native WP_096949333.1 WP_001538182.1 adenosine deaminase (RADAR) 13 STAND − 1 Escherichia coli NCTC10650 Native Native SQB54359.1 — 21 Transmembrane + 1 Escherichia coli NCTC8620 Native Native WP_048228060.1 — ATPase 22 ATPase + QueC + + 4 Escherichia coli ECOR10 Native Native WP_000269401.1 WP_000537316.1 TatD DNAse 23 DUF4011- − 1 Citrobacter NCTC9067 Native Native WP_115191085.1 — helicase-Vsr- braakii DUF3320 28 ATPase + + 2 Escherichia coli ECOR12 Native Native OWD36540.1 OWD36541.1 protease (ietAS) 28 ATPase + − 2 Escherichia coli NCTC9008 Native Native WP_001460375.1 WP_020244573.1 protease (ietAS) 30 Retron-protease − 1 Proteus 127_PMIR Native Native WP_161800346.1 — mirabilis 30 Retron-protease − 1 Yersinia 404/81 Native Native WP_054888011.1 — aleksiciae 30 Retron-protease − 1 Yersinia 3016/84 Native Native WP_054872116.1 — bercovieri 30 Retron-protease − 1 Yersinia ST5081 Native Native WP_050337179.1 — enterocolitica 31 RT-nitrilase − 1 Escherichia coli NCTC4169 Native Native WP_001521910.1 — (UG5) 31 RT-nitrilase − 1 Klebsiella KPNIH39 Native Native WP_023301376.1 — (UG5) pneumoniae 32 TOPRIM-RT- − 1 Pseudomonas DSM16299 bla Native WP_084139843.1 — nitrilase (UG10) rhizosphaerae 32 TOPRIM-RT- − 1 Vogesella DSM3303 bla Native WP_120809745.1 — nitrilase (UG10) indigofera 33 RT (UG7) − 1 Escherichia coli NCTC9069 bla Native WP_000064054.1 — 34 RT (UG9) + PolA − 2 Photorhabdus sp. CRCIA-P01 lac Native WP_118986603.1 WP_118986604.1 34 RT (UG9) + PolA − 2 Pantoea sp. B40 lac Native WP_042677494.1 WP_128574327.1 34 RT (UG9) + PolA − 2 Vibrio DSM17657 lac Native WP_051241322.1 WP_083962817.1 litoralis 34 RT (UG9) + PolA − 2 Pseudomonas Wood1 lac Native WP_080587824.1 WP_027911782.1 brassicacearum 35 DUF4297- − 1 Escherichia coli NCTC9036 Native Native WP_060615938.1 — STAND 36 DUF4297- − 1 Salmonella NCTC10718 Native Native WP_115407481.1 — STAND enterica 37 ATPase_GHKL + − 2 Pectobacterium CFBP3304 bla Native WP_005974598.1 WP_005974600.1 Helicase_SF2 wasabiae 37 ATPase_GHKL + − 2 Vibrio ATCC43516 bla Native WP_061066216.1 WP_061066217.1 Helicase_SF2 harveyi 38 ATPase_GHKL- − 1 Raoultella NCTC9528 Native Native WP_112150151.1 — DUF3684- planticola DUF3883 39 TerY-P + helicase + − 7 Obesumbacterium DSM2777 Native Native WP_057631338.1 WP_057631339.1 HEPN + proteus ATPase + DUF2357 40 Kinase-helicase − 2 Escherichia coli NCTC13919 Native Native WP_000877066.1 WP_001294844.1 41 Helicase-DUF559 + − 5 Plasticicumulans DSM25287 Native Native WP_132537919.1 WP_132537920.1 SMC + McrB + lactativorans DUF2357 + ATPase 41 Helicase-DUF559 + − 5 Yoonia DSM29955 bla Native PUB10544.1 PUB10545.1 SMC + McrB + sediminilitoris DUF2357 + ATPase 42 GTPase + − 3 Pantoea DSM3873 Native Native WP_084873987.1 WP_084873988.1 GTPase + TM cypripedii 43 TM + GTPase + − 3 Escherichia coli NCTC10962 Native Native STI27515.1 STI27516.1 GTPase 44 Dcm + HerA + − 5 Pseudomonas NCTC10727 Native Native WP_031690635.1 WP_004363346.1 Vsr aeruginosa 44 Dem + HerA + − 5 Aquimonas DSM16957 Native Native SDD97145.1 SDD97170.1 Vsr voraii 45 RecQ − 1 Klebsiella NCTC11696 Native Native WP_032728854.1 — oxytoca 46 Histidine kinase + − 2 Pseudomonas NCTC13717 Native Native WP_003450792.1 WP_003450790.1 phosphoribosyltrans- aeruginosa ferase 47 PH-TerB- − 2 Klebsiella NCTC11357 Native Native WP_126494466.1 WP_023316678.1 DUF726 + TM pneumoniae 48 TerB + DUF2791 + − 3 Escherichia coli NCTC9024 Native Native VDY98671.1 VDY98669.1 Lhr helicase System # Gene C Gene D Gene E Gene F Gene G bp 1 — — — — — 2393 2 — — — — — 2569 5 — — — — — 4154 7 — — — — — 3648 7 — — — — — 3818 7 WP_000837118.1 — — — — 4236 8 — — — — — 1951 10 — — — — — 5533 13 — — — — — 4781 21 — — — — — 4037 22 WP_000192874.1 WP_000020778.1 — — — 4891 23 — — — — — 6502 28 — — — — — 3678 28 — — — — — 3917 30 — — — — — 2009 30 — — — — — 1946 30 — — — — — 2032 30 — — — — — 1996 31 — — — — — 3679 31 — — — — — 3479 32 — — — — — 7494 32 — — — — — 7656 33 — — — — — 3894 34 — — — — — 3208 34 — — — — — 3211 34 — — — — — 3196 34 — — — — — 3382 35 — — — — — 6514 36 — — — — — 6261 37 — — — — — 10166 37 — — — — — 10210 38 — — — — — 5918 39 WP_057631340.1 WP_057631341.1 WP_057631342.1 WP_057631343.1 WP_080376085.1 12191 40 — — — — — 6873 41 WP_132537921.1 WP_132537922.1 WP_132537923.1 — — 11931 41 PUB10546.1 PUB10547.1 PUB10548.1 — — 11041 42 WP_084873989.1 — — — — 4789 43 STI27517.1 — — — — 4577 44 WP_004363343.1 WP_003131012.1 WP_071534163.1 — — 11911 44 SDD97192.1 SDD97211.1 SDD97232.1 — — 11635 45 — — — — — 5424 46 — — — — — 4088 47 — — — — — 3637 48 VDY98667.1 — — — — 6037

TABLE 16B (cloned sequences of systems #1-48) System # Name Cloned Sequence  1 Retron- atccctgaattccccgaaggtgaacaatccactgttcacccttcaccgtatattaacccgttatcacactgaaattaaaagagaaaaatgaaaggtgaacagtgtgaacaatca TIR aatcaaaaaaactttctactcccactatagcctgactggtcgtctccaaaacgagcggaaaagcatcaacaatgaatagttaactgttaactccgcgccaactcattaccactta actcaatgatattaaatggaaaactatcgaaatgaatactctgcaaaattaaatgcaaaaaaatatatgccagtcaaatttcgttacgcactctcttccaagaaagagataaatgc tttatacgtccaccatactatgttatttttttaatacggctctgccttaaatctgtgaggttgtttcgcctcgaagtatcttatgttagcacatcacgctaccaatcagcggttagttactt gacgtaactgttaattggctaaagtttgcatagagtgattgggcggagccgtaaatttagtccataaatacagtaacgaggtagagagtgtctttacatgacaagctactgatgc ttagtctcaattcggcgaataaagaagaagatgagacaatcccggagttacctaagttagagcctcagccctatcaagctggaaataagttgaaatgggataataaagagctg aaaaatcagcccatcacttcaaagaatgacattaatgtaatatgcaaaaaaattgaaaacaaaagcattgtaattacatcagcaaacgatgtagccaatctgttagaagtcccg gtcggacaattattatttattttatataataaaaaagataactatagaacttttgaaataaaaaagaaaaatggaaaaagtagaatcataaatgcacctcaaggcggtttatcaattc tgcaagagaaattaaagccagttcttgagtacttttatcgccccaaaaaaccagcacatggatttattaaggataaaagtatattaacaaatgcagaaaaacatacaaagaaaa aatatgttgttaatgtagatttagaaaattattttggttcagtcactttcgctagagtatatgggatatttaaaagtaagccatttaatttctctcatcctgcggcgagtatattagctca actatgtactaaggatggaaaattacctcaaggagcatgtacctcccctgttctagcaaatttagcatcagcctcactcgataaacacctaacccaactggcacgtagaaaaaa catcacatatacaagatatgcagatgatattactttttcatttaatcaacgacaagtcagagaaatcataacgctagataatgaaaataattttgaattgggcgaggcgattatctct gtgatagagaaaagtggcttcagcataaacacaagtaaattcagagttcagaaaagaaatgaacgtcaaaaagttactggtctagtggtaaatgaaaaagtaaatgttgagcg taaatatcttagagttactcgttcattagttcataaatggagagaagacaagttaacatcagcattgttgtttgttactaaaaaaggttttaaggcaacaaataacgaacatgctata tcaatttttcgcaatcatatttatgggcgattgagttttataaaaatgatccgtggtgaggacttcccgttatatcttaaattaatggctgaaatgagtcatcatgatcctttaaaaaca aaagaagggcttagagcaatgaaagaaactgaaacttacgatgtatttatttgtcatgcaagcgaagataaaacatccatcgcaattccaatttacgaagaattaattaaattaa atatatcaacattcatagatcatgttgaaataaattggggcgattcattaatccaaaaaattaactcagctcttgtaaagtctaaatatgtaattgccattctttcggctaattctgtag ataaacattggcctaagaaagaattgcattctgtgcttgcaagagaaatcactgaaggtgaagtaaaattacttactcttgtaaaagaagcagatgaagcaatagttgctgaatc tttgccgctcttaagtgataagctttatatgacctataaagataatccggcagaagttgcagataaggttcgtgcgcttttaaacaagtgacagctactgtcaaatgtgtataaagt cattgatattttatataaaatcaatggattgcaatccatataagattccttatgcatcagtgacccggtgctcgcccggtcactgcttcagtcccagcagaactcagacgaggcg cttaacatctaacgggatgccaacccgacgtttggttttatcggctatctagcctatatagaagca (SEQ ID NO: 370)  2 Retron- cacgtaaatatgaaaactgttagcccacatagcccaacaaaaatatttgatagttaaccttctgttactaaagaaaacaggaaagtaaaagtgggctaaagcttatgcgccctc TOPRIM gatgttgggctagccccaaaaacggtaaatttagcttaagtgcataattggttagctcaaaagcattatttttcatttaaataaattagttaattggtcttgtttagatgattcaactgg gctgactactttctttgtatatactccggataaattttcccagctaacttgcctaatcatcactctgatgccagaaatgaacagaacgcaaaccatctataacttattgaggattttga aaaaaattgattgggggcttgagttatatgatgactatgctaatttaatacggcacatgcaggtagatttgttggttgtggtatcgcaatcagtgttaacaaggtcgggagtattcg ccctctgactgccgtcaagtcatcttggcgtcaccgttaaatgcgtaagagtacctgcatgtgcattaacataatcaataatggaatttactgttatgtttaaacctacctatctggc aaggctgcaggcttgttgtaacaaatttgaactggctgatttgcttcagattaaagttacatttctgactaatgttttgtatagaataaggccagaaaatcaatacaaaaaatttacta taaagaaaaagtctggaggagagcgggagatctttgctcctgatgaaaaactgaaagatattcaacaacgactttctgaacttctatatatatgccaggaagaaatttgggcaa aaaataatattaaacaaaatgtatcacatggttttgagaagaataaaactataattacaaatgctgagaggcatcgagataaaaatattgtatttaatattgatattgagaatttcttc ccatcctttaattttggtcgcgtgcgaggatattttattgcaaaccaaaatttcaagttacatccaaatgttgcaaccattattgcgcagatagcctgcctggatggatcgcttccgc aaggaagcccttgttctccagtaataactaatcttatttgtaggattttagatttcagattatcaaagctagcagtcacatatggttgtagttacagccgctatgcagatgacattac gttttcaacaaacaaaaaaaacatccctgatgcattagtttctaatgagaaagaaaacgaaccaggtaagatattggtagaagaaattcatcgtgcaggcttcactttaaaccat aataaaaacagagtgtctaggtgtacatcaagacagcaagttacaggtttaactgtaaataaaaaaataaatgtaagcagagagtatataaagaatacaagagcgatggcgc attctttatactttgaaggttcgtatacacttattgagaaagatggaaaacatagaaagggcacccttagtgaattagaagggcgatttgcatttatcgatatgcttgataaatataa taatgtggaagcaaagaaaaatgcgcgtcctgagagatatgtggttaaaggatttgggttggattttaagcagagacttaactccagagagaaagcatacagcaaattcctat actataaaaatttctatggaaatgagcaaataacaatcttaacagaagggaaaactgacccggtttatcttaagtgtgcaattgattctttgtttttggattaccctcagttagttaga gaggaaaaaaacacaaagaatagagtgttaaaagttaatttatttaaaaccaatgacaagaaaaaatattttctcgatttgtctggtggagctgcagactattcgaggtttttcag acgacatggtttactttgtaaagcgtatgaaaaacagcctcctaaaaatccagtgataattttattagataatgacacagggccatctgacttcataaatcaaataataaaggatta ttcgcatctaccaaaaaaagcggaggatgttagaaaaggggcgttttatcacttagagagtaatttatatgttctttttactccgttattaccaggggataactattcttcactagag gatttttttgaaccaaaagttttgcaaatgaagtataatggaaaaagcttcgataaaagcaataatcatgacagttctactacatttggaaaagatagatttgctacttatatagtaa gggaaaatagaaaaactatcgatttttcattattcaaacccatacttgattcaattattgaaatcaaaaaacattttatcaatctacacccatcaaagtgatggttatgaaaagagat aaaaatgctgatgtcaaaagaggcttatgctcggcacagtggagtgagctgccaaactgtcgatgactgggtagccggtggggcggaagtagttatgtcccgtagcaaggt taagatttgctcttgtgtgtggggaaccttagtcaattactttcctggcgcactgtgttagattttgtaaaattttaaaagactaaagatttaatatcacttctccatggaggttgtg (SEQ ID NO: 371)  5 RT- gtggcaagattataccccatcaggcataagatgctttgacttataacgcatcagtttgaaacacaatggtgatgggggtcacaggggctgacatgtacttttaagattaaaaag nitrilase cattaacatctacttttgaagaaaacagaaaaaaacaatcacaaacctttaaaaacaaaaactatgccaattattaataaaaagtatcaagagcttcagttaacagatgagtacat (UG1) taccgatccactgctcatggccctagcctggaagaaaagccatcactacatacgtaccacaaattggtatgctgacaactttgaactagacctgtcggctttggacctaatgca gcactgtaaagattgggtcaagagaatgcaggacaaaaaagaatttaaattttcagagctacaacttgttcctgtaccaaaagcctgtaaatgggagtttaagactgtcgaaaa taaggttctatggcaaccttgtgatgaaaaagaacttaccctacgcccccttgcccatatacccatagctgaacaaaccatcatgacattagtcatgatgtgcctagccaataca atagaaaccaagcaaggaaacccagacaccagctatgacatcgtccaccagaaaggtatcgtcaattacggaaatagactttattgtcagtatattgacgataaagcagagc acagcttcggtgcaacagtgacatatagtaaatacttcactgattatcggaaatttttaaataggccttatcattttgcgtcaaaagcgcaaggtgaaatttcgccggacgaagcc gtttacatcatagaactagatcttgcgaagtttttcgatttagtaaacaggaagactctaattcaaaagataaaaaaccatatcagtgagtcaataaacaataaagaaaacccact cgccaatcatttatttaaatgttttgcaaactgggactggactgcatctagcataaaaaattatgacatatgcaagtcagacgaagtaacagaaataccaaaaggcatccctcaa ggattggttgcagcagggtttctatcaaatatttacttacttgaattagatcaattcttgcataataaaattaacacagacataactgatgacattaaatttgttgattactgtcgatatg tcgatgacatgcgatttgtggttaaggttaaaaaatcaaaaaataataataccgcattcataaatgatgtaataaccaatcttcttaaaaatgagatagataatcttggactgataat taatcctaaaaaaacaaaagtagaaatttttagaggcaaatccgcaggcatctcgcgtagcttggaaaacatccagaccagattaagcggcccaatatcaatggatagcgcc aacgaacaacttgggcatcttgagtcattattaagtctgacaaaaaccgattttgaaccaccgaaaaatggtaaatcaaatagattagctgagattgaaaaagaccgtttcgatg tcagggaggacactcttaagcgcttttctgccaataaaatcagtaagatactaaaagagttaagacatttcatctcgcaggatatagatactgatggggaggttattgccgggg aatgggattatctgcaagaacgtttggcacggcgttttattgtctgttggagccatgacccgtcactggcactgctactcaagaaagggctggaacttttccctgatcctaagct attagaccctatacttgaacagctttgctcactcattgaaagcgataatgaaaaacaaagtgcagtagctacttattgccttgctgaaatatttcgacattcagcaatgactattcat aaaaaagacacctatgcattccctgcacaagccaatgtggatgggtactttgaaaaaatacaacattgcgccgcgacattcattaataagcgcagcgcctctgacaacgaaa cttggaacctgttaattaatcaggctagttttctgttgcttgtgcgtttagataatacattagaaaaaaatggcactgatgccaggcatgatcttatcttaaaactggcatcaggcttt agaacaattacacttcccactaaaatggatagcaagactatagcctcatgtattttgttggctagtcaattagttaaagataacaaaccatttattcgctcctgcgcttctttgtgcg aaagaatttatgacaaagaacacgtcataaaattgaagaaaatagttagcataatatcacatcaaaacttatcattgtttaaatccttagtttatcattcacgacctttacaacagaa gtggctaaactcagactccgtgaaaataataattaatgaatgccatatagatatacaacctttggcgacttctttaggcatgataaaaagtagtcactcattacttagaatcatatc aagacctgataacccatttgccaatgagataatggcattaaaactgatgcaagcccttttattggacaggattgtttgcctggataataaaaaagattatcaaataagtgtagcaa acaccaaagtgacgtttcataactactccaaccctccaacatcgaatgtcttcgatgcaggaatggatatggatgcaaaattattcaaatcatcgggatgggtcgattctattttc acggatgatgcagacactcaaatattgtatagagttgccatgtgcatccgttcagtactactcggcaaacaagactggacagattttggtcaagcaatttcccccaaacagggt tatcggggtattaaaactagtagagacaaacgtcaattggggatgatgacaacacctgagtccattgccggtgagaactctcaggtttctggttggcttaccacactcttatcca agttgcttgcctggccgggaatttcagtgggtgataatggatatcaatggccagcaatttttacagtagatgctgtcagaaaactagttgatgctcggctgagtaaacttaagca ggattactgcaaactatcaggaactccgggacttacagaaaaaatacagttcaactggtctgactcgaaaaaagccctaacagttgctatggtccagtcaaaactgcctgcaa cgaaagattttgtcagccatggacttcttttaaactccgcaaagtatagagtgattcatcgcagacatgttgctgaagtggctgatttagttgtaaaacacacgcttgcacaaaaa acaactcaacgaactcatggtgaaaaaatagagaacattgatttaatagtatggcctgagctcgctgtacatagtgacgatttggatgtactcatcgccttatctagaaaaacga atgcaatcatatactcgggcctgacatttattgagcaacctggaatcaaaggaccaaataattgtgccgtttggattgtcccacctaaaagcaatagcagccagaaagaaatg ataagacttcaaggcaagcataatatgatggaagatgagaaaggccgggttgaaccctggagaccataccaattgatgcttgaacttgttcacccccaatttactgataaaaa aggatttgttctcacaggctccatttgttatgacgcaaccgacatcgcgctaagtgcagatctcagggataaatcaaatgcttatcttgtagcagcattaaacagggatgttaata cattcgattccatggttgaagcactgcattatcatatgtaccagcatgttgtgctcgttaactcaggggaattcggaggatcttacgctaaagcaccttacaaggagccgtttaat cgtttgattgctcatgttcatggcaatgatcaggtagctataagtacgtttgaaatgaacatgtttgatttccgtcgtgataatataggaaaaagtatgcaatccgggttagataaa aaaactgctcctgcaggaatcataatgtaataaatattagatatttttatattagaggtgaggagatggcgtcacctctaatattttcgctgattgtatttagcatcaaataataaagg tacaattaatttaagtgactatcatgaaaaaattagttccgccatatcaagtaaccccggcacaaatctatcgttccgttgccagttctacagccattgaaaccggaaaac (SEQ ID NO: 372)  7 RT gcgttgaatggtataactatggcacggttaccgcatgttttgagctgtaatcgaagttatgaaaattgctatataaagcggtcgctgttgtggagatacgattgcgggaagtgat (UG3) + ggaaagagctataaaaagtacagaggatagtttaatgagggtattatgaaccgtcagccgtttacttcagcagcacttaaacgaaacttaagtgaaagtgagaaggcttattat RT tttaaaaaaaataatgttgctgagttagaatcattaattagtgatgccgttttaattgctaatgagaattttcgctctggtgtgagtgtaaagaaactaaatattaagggacgctgcgt (UG8) ttacactgcttcatgtttgaaggaaaaaataatacttagacattgcaatgcaaatttaaaatgccttgaatcgcttcgtcccaaacaacgaaatacaataattagtgagcttaaaatt tatttggaagaaggtactccattcaaaatatatcgtttggatataaagtctttctttgaatcaattgatttaccgcagctttttcagctcttacataacgaaacacgactgtctagacat acaaaaaatttgctagaatggtatcttaaatcgtgtgaaaggcttcactcttcgaaaggattacctagagggttagaaattagtcctatgttatcagaattgtacttggcacaatttg ataatagtattcataggcatccagaagtattttattattcaagatttgtagatgatatggtaatcgtttcaagtggttgtgaatgtgaagcgtcctttatggaatttatacaagatgtatt accaaagggattggctttaaataaaaataaattaaaaatatctccatgcataccaaagagaagtaagggtttaaataaacaggataaattgcttcatgaatttgactttctagggt actcgttttctataatagacacacctttgagcaaagatggtgagattaatagctgttacagaaaggttgttgttaatttatctaaatctcgcctgaagaaaattaaaacaagaatag ctaggtctttctactcttatcatattaatggtgattttaaactattgctagacaggatttcttttttgactagtaacagggatttaaatcgcaaaataaaatcgttaagttctttagaaaaa agcaagataagtacaggtatttattacagtaatgcgaagttagatgttgactccatatccctaaaaaaattagatgactttttgctatattgtgtgcaatctaatactgggcgtttgaa tagtgttgcaaaaaaaccttttaatttgaagcaaaaaaaagaactgctaagaaatagttttagaaaaggctttgtggatagagtatatagaaagtataactttaagcgctatactga gattacaaaaatatggttataaagaaaaacattaaacttgataagaaagattatctcagggctttactatgtgatacactgcccggtgattgtccaattattttttcaaatgatggctt atatataaacttaacagaatatgatagagtttgtaatgatttgttacattttactccggtttcttctttcttaaaaaaaatagttaaccctaatttagactcttctattagtgtcgcagatcg ccaccgagaaaagaagaaacaaagctccccatttggctattgtatagtaaaagatgcctttagccaaagacatctttctttaattcacccaagatctcaaattaattattcggaatt ttataaaacatactcatccgttatcacattaaatactttaaaaagtaatttttctattcgctacccacgtaaggtcgctaactctttctttttatatgaaaataatgctttggaaaaatata aaggggaagatatcgaaacaacaaaggatgagttaatgaggaaatattcatcctcttattttagttatggcggtttcaacaggatatataaactatttcaaagtaagatgtttattg agcttgagaaaagattctcggtgatgtggatgttagatgtatcacattgttttgatagcatatatacgcattcggtttcttgggcattaaaaaataaatcatatatcaaaaaacatgtt aaacacagcaatcaatttggacaagaattagatacactgatgcaacgtagcaataataatgaaacaaatggaatacctattggttcagagtttagcagggtttttgcagaattaa tatttcagcgaattgattgcaatattgagtcatgccttcttagtgaacatggatgggttaataataaagattatgttatattgagatatgtagatgattttattgttttttgtaatggtgagt caagtgccgaagttattacaaaaataattaatgtgaagttaaatgaatataatctacaattaaatgtaaacaagcttaagaagtattctaggccattttgcactagcaagacaagtt tgattgtcaaagttaatgaattaattcgcaatttagaaattaaactgtatgaaaaacgtgatagtggctttactttaaataaaataagaagtaagcatgatttaaagatatatgtaatta atcatgtcaagtctatatgcattgaaaatcaagtgtcttattctgatgtttcatcatatataatatcatctctttccaaaagattaatatcaataattgatatattacgagttcaagaaaat gaagatgatgtagatgtaaaaaaaaggattaaggacttaattttcacaataaccgatattatgttgttctttttcagtgttaacccaactgtttcatcatcttataaattatcaaagaca atggttgttgttaataactatttgaatgaaatatctagtgactatagtagtatttttatgactacgttagtgaatgctgcggaaaacattaattttggtgagaatgataatgggctgttta ttgatgatttcatttcaattgaaaaggttaatttaatcttggctgctactttttttggagataattatcttataagtgacagtttttttcatggagttatacataaaaagaaattggactactt tactataatctcactgctattctattttagaaacagaagatcattccgaaaattgaagtgtataatagagggtgaaataaaggaaatattaagttctaatatggatttgctgcaatcat cggaaaaggcacatttatttttggatgtcatgtcatgtccatttgtctcaatagagacaaggcgttttttatatagaaaatatctcaagagctatgagccaaagctgaacagaagtc atctggagattgagaatgatttgcaatctctgcttcaaacatattggtttgtcaagtgggatgagttagatattgtgaaaatgattgagaaaaaagaattgaaagaaagctattaat ttgataaatatgagtcgtggtcagtttcaaaatacttacgtcatcgtcgtcggtgtattttatatcgattatgaagacgatttcgctggaactgaaatcggcttgaatgcttaaactta agctaaaaaaacagtttgagaccaaagcctaaattattaggctttggattttcaggttcagttgagagtaattgctgtctg (SEQ ID NO: 373)  7 RT agatacagtctccatcatactcagaggcgcataccccttacatatctcaggtttatctggcttaggctatgacgctaacccactagagaatcggagaaaagtaaagactgtttga (UG3) + tttgtgagcttgattgattgcaatttaagcgctcgacacagggcaggatgccaaacaccttcaacagagaggtcggtagctccagcatatgcaagctaacgttgctttggaact RT tcaactaagtaccaagagtggacggttccttagtatcaggcaagtatatgattgcacctagcggtgtaaagagttataaaaaagcataaaacgttgtattgtgagactttaatga (UG8) accggcagccatttacttcatcagcacttaaacgtaatttaagcgaaagtgagaaagcctattattttagcaaaggaaatagcgaaaaattagaatcattaattaacgatgcagt attaattgccaatgaaaattttcgttctggagtcagtgtcaaaaaattaaacatcaaggggcgttgtgtttattccgcatcgaatttaaaagaaaaattaatactgaggcattgcaat tccaatctgaagtgtctggaatcacttttgcctaaacaaagaaataaaataattgatgaattgaagctttatcttagagaaggcacacagtttagggtttatcggctagatataaag tctttttttgagtccatccagttgccccagctttttaaatatatgcatgatgagtcgagactatccaggcatactaaaaacctgctagaatggtatcttaaagcttgtgagcgtattca tgccacacaaggcttacctagagggcttgaaattagtccaatgctatctgaattatatttgtcagagtttgatcgcaatatcaatcgacatccagaagtattttattactccaggttt gtagatgacatggtgattatttcaagtgggaatgaagaccaaaagacctttatgaaacaggtagtggatttccttcctaacggtttgaaactaaataaaaacaagctaaacatat cccctttaattcctaaaagaagtaaaggggataataataatgataaattactccataaatttgatttccttggttattcttttgcagttatagatacaccattagcaaagaatacagtaa acatcatatatagaaagataattattgacctatcaagcggtcgattgaaaaaaataaaaacaagaatatcaagagccttttatgcatttaagaataatggtgattataagctattact agacaggatttcttttctaactagcaatagagatttaaacagaaaaattaaatcactgagttcaactgagaagaccaaaattagcaccggaatatattatagcaacgctcggctt gacgaaaactccaagacactaaagcaactggataactttttaatttattgtgtaatgtcaaatagagggcgtttgaatagtgttgccaagcattctttaagtataaaccaaagaaa ggaattattgcgaaataattttacgaaaggtttttctgcaagaatttataggaaatataattttcaacgttatacagagattactaaaatatggctctaaaaaagaatattaaacttgat aaaaaggattataccagagctttgttgtgtgatacccaaccagcagactgtccgattattttctcaaatgatgggctttatgctaatttggcatattttgatgttaactataaaacatc aacagattttactcctctttcatctttcttaaaaaaaataattaacccatcgttggacttgtctattacggttgatgaaagagagcagaaaaggaaaaaacagagcttccctttcggt tactgtattgttaaagattcttttagcttgagacgtctttctttaattcatccgagatctcaacttaattattgtgagttttacaaaaattattcatcagttataacctacaattcatcaaaga gtaattattcaataagatatcctaagaaagttgccaattcattctttttatatgagaagaatggagcggaaagatataaaggggaggatattgaaactactgaggatgaattaatg aggaagtactcttcttcatatttttcgtatggtggtttcaatagaatatataaattattccaaagtaaatctttctttgaacttgaaaaaagattctctataatgtggatgctggatgtatc acattgttttgatagtatctatactcactcagtgtcgtgggctttaaaaaataaagcttacattcgcaagcatgtaactaacagtaatcagtttggtcaagaattagatacattgatgc agcgaagtaataataatgaaacaaatggcatcccaataggctctgaatttagtagaatatttgccgaattgatcttccaacgaatcgacaataatattgagttggatcttatggat gagcatgggtggaaaaataaaaaagactatgtgatattaaggtatgttgatgattttattgtgttttgcaataatgaatcgaatgcagaaataatttctaaaactattaatgtgaaatt aaatgagtttaatctccaactaaataaaaataaattcaaaaaatattcaagaccattctgcactagcaaaacaggacttattatcaaagttaatgagttaattcaaaatttggaatca aaattatacgaaaagcatgacggcaatattgttcttaataagataagaaataagcatgatttgaaagtatatatgattaataacattaagtctatatgcttagatagtcaggcttctta ttcagatgtatcgtcctatttgttatcctcactgtctaaaagattaatagcacttatccatcacttttcttttgagaaaaataaagatgaagaatttaaaaaaatcaaagatgtaatattt acactatctgatttaatgttattcttttttagcgttaatccaacagtatcatcctcgtacaaattatctaaatcaatgatcattattaatgattatttgaaagggatttcaagtgattatagt aatatttttatgacatcattggtaaatactgctgaaaatatcaattttggtgataatgacaatggattatttatagatgattttatatccattgaaaaggtcaatttaattttggcagcaac gttttttggggataaccacctggtaagtgaatctttttttgatgggattttgcaccaaaagaaattagattactttacaatcatatccttattattctatttcaggaatagaaattcatttca ggcacttaagagtatagttgaaagaaaaattatagaattactatgtccagatatggatttgttacagtcttcggagaaggcacatttatttttggatgtaatgtcttgtccatttgtatc aataaaaacaagaagatttatatatataagatatctaaagtcttttgagccaaaaaatctaagaacccactctgagattgagaatgatttgcaatcaatgctccaatgctactggttt gtcaagtgggatgagttagatcttttaaagatgatagagaaaaaagaattgaaggaaacttattgatctgataaaacattaatgtggtcagtttcgaaatacttacgcattattggt aagataaaatcttatgttaccaataatgtgatttcgctagatttggaatcggcttaactgcttaaacttatgctaacagaattgcttaagacctaaccattctttggaatgagatggg gcttccaggtccagttgagagtagtcactta (SEQ ID NO: 374)  7 RT cttgagtttgcgtaagataatttcgtgaaaattaaagcaattaatataaaaaatgtaattactagtgtgtacagatatgaaaaatgatagttataaaaccatatgaaaattgaagaaa (UG3) + gagttcaatttttgccttgtcagtaacaaataggtagcttattgaaaaaagataaaaaattaacaaaaaatcaataaattcatatagaataaaaatattaaagaaatgaaataagtg RT tttgcttcatcagttttagggatacattaaagtggttgataaagaaaaatattatactggattaataaaagatataaaaatagtagcttatgcaagattcaataaaatacgtcgtttaa (UG8) agagaaataattttttaggattgttatctatttcggtagtttctatcttagttattatattatcaattgtagaaaaaatttataatataaaaacaatgagtttaattccattgtttgaaccaaat atagaaatatggttcttttgtatacttgcttcaataattattctttgtatatctattgcactctctactatgaagattgatattgaaatagaaaggttaaataaaagtgcagttgaacttaat gaagtaaggcggaaaattgaatttaatattgagaatagtaattatcaaaatagtacattgtttgataaatatcttgaaataataaagtcagacttaataaatcatgatgaggttgatta taaaataaataagtatttagtcagtaaagttggtagtaagtttgcttattatcgaatgtattttattgatcagaattttacatcaatattttatctttttataacatttttaagcttttcttca attatttcaattattttgcaggtaatgttgaagtgataagacaagattttagtgtaaattccctgttgagaatcacaactaaaaatgaaattgttaaatttaacttgggtcgtaataaggaa gagtatgctattgcattatctcaagtttctaattatctattagagggcaatgaaataatagataatttaagctgtagaatagaaagaaataaagttatatttagtactaattcaattaat actttttatgctttaaaaaaaatttctaaagatttaagccgattgtataaaattgagcctcctaatagagatgatatttctgaacaaatttatagaatttttgaacactctacaagctata gtattgtaaggttagacattaaaagtttttatgaaaatattcaatataatgaggtaattaaaaagctggatagagataaaatactagttgcaaaatctattaaaattcttaaggatttat ataactttattgataatggtttaccacgaggtttatctataagtcctattttgtcagaaatatttatgaaagaagtcgatcaacaaattagaaatatagatcatgtatactattatgctag atatgttgatgacataatagtaatttcaacagataagagtgattctatatatgaaaaaacaattaaagttttagagaaatatgatttaaatgttaatagtaagagatatataaaaaata ttcctgctgtgaacaataatgaaatctcaactttatataagtttgattacttaggatataagtatattatagatacaatttcatataaaaataaacgaatagttaaagcggaactgtca gatgataaaaaaagaaaaattaaaactagaataatacatagtcttttagatagagtttataatacaacgcattatgatcgggaggagttgttaattaagcgattaaaagtgttatcc tctaactactcaataacatataatgaattgtcaaaaactaatttaaaagctggtatgttttatagtcataggttagtaaataattatggtatttttagtgaatttaataaatttttatctaaa gctatctactgtcaacaaaacaatttctttggtaaagctatgtcgcagattcctagtaaagaaaaagaaaatattattaaaagtatttgttttgttagtggatttaaagataaaaacttt attgagttagagagggttgaaatggaacgagtaaaaaagtgttggaaaaataaacgatataagaagctttgaggtaaaaatgaaaagtaagatttatttagataaaaaggatttt tatagagtattgttaactgatgtattaccctatgaagtaccttttattttaagtaatgaaggtttttatagaaacttaaaaagcaactcatttcattcagttactaaaaaaatattagaatt aactttatttacttcacaagtaaacactaatccttttaattttaaaatctctaaagatgatagtaattttaggaagttatatttagttcacccaagttcacaaataaaaatatcaaatttata taaaaattattatcaattaattacgcatttgtgtagtagaagttctttttcacttagatatccaacttatgttgcaaaagctttttatagtatagaaagagatagatctaattccgaaaatt ataaagatgaagatattgaattactgtcacaaaaaagccctaaatatgcaagtacttattttgtatataaagatatcagttttttatataaattctatgattcttatagatttcaccgtatt gaaaaaaagtttaataaactattaaagtttgatattgctaaatgttttgactcaatatcaacatttcaattacctagatcagttaataaaaattgtagctttgaaagtcatacagatatac atagttttgaacatttattttcttcaattatgaaaggtgcttatcatggtaatacacatggtattgtaataggaccagagttttctagaattttcgctgaaattttattgcaatctatagatg tagcaataaaaaataagttaagaaatgaaatgggaattaaggagggtgttgattatgttataaaaagatatgtagatgattattttttattttataataatgagcaaacttcaaatttaa tttttgaatgtattgttgaagaactttctaagtatagactattttgcaatgaatcaaaaagtattaggactactattccttttattacaggtattactattgctaaacatgaaataaggaa gagattagaaactttttttgaattatttgagtcaataaataataaagatgattatattgggctaaaattaaatcattattataaaatatcaaatcaattaattagtgatattaagtgtattgt ttttaataataatgtaagttattcaagtatttctggttatttttttactttaatgaaaaatcatgttttgcatataaaaaatagtttttcttttgaggataaatctaaagttgaaaatttaagt aagttatttcttattattcttgatgtttcgttttttgtttactgtatgaattttaaagttagaagcacatatttaatttctcaaattatagttttgattagtactattgctgaatcatttgatt taaatttgatagatttaattaataaaaaaatatatgatgaggtggatttggttttaaagataaagtcaaattcaaacttattgaataatattgaaattttaaatctattaattgctgttagaga tattgatcttaattatcagatcttagtagatgatcttatgttattgttttcttcagaaaggattaataagtataattatttctctttaatgacttttttattttatgttcaaaggaaaaaacag tatcagcctatcagagatagaatttatgcaataataattcaaaaatttaatcagaataatctaaatgtctcaaatgattctgagttaattcacattttttttgactcacttagctgtccttatt taactaaaaatcaaaaaattaatataactaactctgcattaaattctattattaaattaaatgataatgaaattgatgtttttgtagaagaaatgagcaaaactaattggtttattgactggaa cttgcaaacaaaagatgcaattcagcgtttgctgatgaaaaaagaattgaaatcaccctatgaaaattgagataattaagctagaaactagatatacctccgacatttgttggttgatt ttacacactatataactcctagtttctataaaaggatgtttctaacatccttttattttttttgagatttaatttttcttttagtgacaactaagttttactataactaatagc (SEQ ID NO: 375)  8 RT aattccccgaaaatccgcccgtttttactgaaaaaagccatgcatcgataaggtgcatggctttgcatgcgttttcctgcctcattttctgcagaccgcgccattcccggcgcgg (UG15) cctgagcgtgtcagtgcaactgcattaaaactgccccgcaaagcgggcgggcgaggcggggaaagcactgcgcgcaagctatgtgaggtgatgtgtaatacatatcacg aatagcgtaggtagctgttggctttgcctgatcaaggtgacagtatacatatcttaaaatataaatatttatgattatttatttgaaagaggttgaataatgatttttgatgaaaaaaga catttatatgaagctctgctgcggcataattattttccgaatcagaaggggacgatttcagaaatcccaccatgtttttcttcaagaacttttacaccagaaatttgtgaattaatagt ttctaatgagccggggaaaagaaaattacatggatacgattgtgtcgaatactcatcgactaggtataataactttcccagagtattatccttaattcacccaagagcatatgcac agttagcaaagcatttgtatgagtcttgggatgagattcgaaaaatcaaagaaaataaaaacagtatgattaaacctgaaatgcatcctgacggtagactttttatcatgaattat gaggatgcagaaacaagaactgtaagggagttaaacgatggatttggaagacgatttaaagttaaaactgatatcgcaggatgttttaacaatatatattcacactcaattcctt gggctgttgtcggtgtgaataaggcaaagacatcaatgaataagcataaaaatagccaagatgttcattggagtgatagattggattattatcaaagacaaacaagacgaggc gaaactcatggtgtccctgttggacctgcaacgtcaagtattgtatgtgagataatattaagttccatagataatattcttgagaataaaggattcttattcagacgttacattgatga ttatacatgttattgtaaaactcatgatgaagcgaaagagtttctccatgttttaggtactgaactttctaagttaaagttatctctaaatttgcataaaactaaaattaccagtcttccc agtacattgaatgatgattgggtgtcgttgcttagtattaactctccatccaggagagtattcaggaataatgactcggatatattatctgcatctgaggttataagctttttggattat gcggtacaacttcatctgacgaatgggggcggtagtatattaaagtatgctatatctttaattattaataaagtagatgaggcgtcagcaagagagatgtacgactacgttttaaa tctgagttggcactatcctatattaattccatatttagatgtattgcatccaaagattaacattaatgatgaggtcaggttaaaacttaatgaggttttgaattcctgcatagataataa gttttctgatggcatggcttgggtgttgtattattgcttaaaatattccattgatattgacagttgtctcattagtaagatttttgaaaacggtgattgcctaagtatttgtattttggataa aactggaagatatgataaggaaatagaagaattttctaaaaatataatttcattggattatttgtatgaggttgataaatattggatattgttttatcagcgattctattcagggaaagg atataatccttacaatgatgattgttgtttcgatataatgaaaacatatggagttaattttatgcctgatgatggttatcaaacgaaagctgaacactattgtaatatagtaaatagtcc atttcttgagaatgatgaacaagtaataagttttaacgattattgttcataatttataattagcctccg (SEQ ID NO: 376) 10 ATPase + actgctcgacaaaacgaaccgttcattcgcgaggatggtggcagtgaatgaggtggtcagttttatcagcgcttcaaggtagctttataggatggattgtagcgaagtgccca adenosine acaaattgattgaagctaagggcattgagcattgcatgcatcatgctcagactgacaaaaaatcaaaataaatggattgatacggacatgacagacagcgtacagactgaaa deamnase ctaccgagggaaaaatcatcatcaacttgtttgctcccaatcttcccggaagtaccaaagaagatgatctcattcagaaatctctgcgtgaccagttggttgagagtatccgaaa (RADAR) ctcgattgcttatcctgacaccgataagtttgctgggctaacacggtttattgatgagtccggccgtaatgtattttttgtggatggtactcgcggtgcgggtaaaactacttttatc aatagcgtggtcaaatctctgaacagtgatcaagatgatgtcaaagtcaacatcaagtgtttgccgaccatcgaccccaccaagttgccgcgtcatgagccaattttggtcact gtgactgcccgtctgaataaaatggtgtccgacaaattaaaaggatactgggcgtcgaatgactatagaaaacaaaaagaacaatggcagaatcatcttgcacaacttcagc gtggtttacatctgctgacagacaaggaatataagccggaatatttcagtgacgctttgaaactggatgcccagcttgattactccattggtggtcaggatttgtcagaaatcttt gaggagctggttaaacgcgcgtgtgaaattctcgactgcaaagccattttgattacttttgatgatattgatactcagtttgacgcgggttgggatgtacttgaatctattcgtaaat tctttaacagccggaaattggtggtggtagcgacaggtgacttgcgtctatattcccaattgattcgcggtaaacaatacgaaaattacagcaaaactttgctcgaacaggaaa aagagagcgtccgcttagcagagcgaggctatatggttgaacaccttgaacagcaatatttattaaaactttttccggtacaaaaacgtattcaattgaaaacaatgttgcaattg gtcggcgaaaagggaaaagccggtaaagaggagatcaaggttaaaaccgagccaggcatgcaggatattgacgccatagatgttcggcaagcaattggcgatgctgtta gggaaggccttaatttgagagagggatcagatgctgacatgtatgtaaatgaactgctgaagcagccagtgcggttgttgatgcaggtgcttcaggatttctatacaaaaaaat atcatgccacatcggtaaagcttgatggtaaacaaagcagaaatgaaaggcctaatgagttatcagttccgaatttacttagaaatgccttatatggctcgatgctaagcagcat ttatcgtgcagggttaaattatgaacagcatcgatttggtatggattcgctctgtaaggacatttttacctatgtaaagcaggatcgtgattttaacactgggttttatttacggcctc agtcagaaagcgaagcattaagaaattgctctatttacttagcgtctcaggtgagtgaaaactgtcagggcagtctgtcaaagttcctacagatgcttttggttggttgtggctct gtcagcatattcaaccaatttgtgaccgagttagcacgagctgaaaatgatagagaaaaattcgaacagcttattagtgagtatgtagcttatatgtctgttggcagaattgaaag tgcctcacattgggctaatcgatgttgtgcggtggttgcaaacagccctaatgatgagaaaattggtgtttttcttggcatggtgcaattaaatcgtaaatcacgacaacacatgc ctgggggttacaaaaaatttaacattgatactgagaatggcctagcaaaagccgcaatggcgtcttccttgagtacggtagcttcaaataatcttatggatttctgtagtgtttttaa tctgattggtgctattgcagatatctcagcatgccgttgtgaaaggtcagccattactaatgcttttaataaagttatagctcagacaacatgtattgttcccccatggagcgaggc tgctgttcgtgcagaaatgaaaggctcaagtaaaagtgcagataacgatgctgctgttttggatgtagaccttgatcccaaggatgatggcgtgattgatgaaagtcagcagg atgacgcaacggaattttctgatgccattactaaagttgagcaatggcttaaaaacgtaaacgaaatcgagattggaattcgtccgtcggcacttttgattggtaaagtatggag tcggttctatttcaaccttaataatgtagctgatcaacataaaaccagactctatagaaatgcagagcatggacgaatggctagtcaatcaaatgccgcgaaaattatgcgtttta atgttttagcatttcttcatgcggtattggttgaagagagtttatatcattcggttagtgatagggaatatatcggtgaggggttaagactaaatccagttacttcagttgatgagttt gagaaaaagataaaaataattggtgagaaattaaaagcggataataaaacatggaaaaatacccatccattgtttttcttattaattagctgtccaattctacatccgttcatttttcc tgttggtgggattaattgttcagtcaaagcactgaacaaagaaacaagtttcaataagctgattgatgaaattgttggcgataaattactttctgatgaagaatgggactatctgac taaaaataatgatcaaaaaacaaacactagacaacaaatttttcaaaatactataacatcgctgaattcctccacaatcgtcggagcatcatacgataaggatacaccagccag gaaaaccaagtcacctttattaggtgatagcgaagaaaaatgataatggccttcgtataaggattgggtatggaaaggtttcttcttaactcaacagttctgttatataggctaag cacagtctctttggatgaggtatcacttgatgagagagtggagtcatctgtattccttgctcaatacgaacaggctcgtagtttacctgatcatgtagctaaatctgcttggtcatat ttagtgcaacaaatcaaacagcggaatatgaaactcggcccagtagcaatcttacgcctgatagctgaaaagtttattaaaaacgagaaaggtggccccaaaatcgatctac ctatgttctcggaatggcaaacgctgatgagtcgagtatcgtgtctaccaattatagcgtgtcatcaggtatttaatccagggccagccagtcaggaatatagttttcgctggcct ttatacccatatcacccgacggttgaagactacattacccgtgaatgcttacatgaaactcaccaacacctaaatggcagtaccagtgcagaagagtgttggctggatgcact caaacacccagaagcatgcctcagagattttgagaagggctgggcatctcaagagatgaaacaactctgcgcccagattgatccatctctgacacctagaatcttcaaggat cgtttgcaaatcgcctgtaatattcgcgaaattctttgtcgggttgctcagggcgtggaattgccagagtggatagcatcaatgcaaaatccgcagcaactggcgaatagcac aattctgcataatggccgggagtatgggtttgcgacagtttggccaattgacgacaaatacagtcaggagtctgagttttgctggctaaccggattgttggaaaaatggcggttt aatgcgccagaagggttagaacgattgctttggatttacctgctgattcaaaatcagtacttgaccttactggttcagcgagacgattttttcggatttgaacagttccagaattac accatgacggagttgagggaggaaacagagaaatcttatttgtctcgttttaaacatgctcatggtgcaggagtgtattctcaggtgcgttatctggaaggacgttttgctccga agagcgaccccaacaaaatgcaaaagctgctcttcagtgtgttaagaggatattgggaatatctgagtgctcatatgtccatggaatgggtgcatgaaaagcctctgactatat cgcaagtgctcgataacctcgaactggttgaacctcatggcaagtgtgtagagctggcgctagtgccgcactttatcaaaagaaagcccaaaaatggtgaggcctatcctca cgcattactattcaaagacctgaaaaatcaggcagctattctgatggacatgctgaagtctgaaccgcgtctgacaggctggattcgaggagtagatgccgcagctaatgag atgcacgcaccacctgagttattttgccccttgttccgggtactagccaaatcaggtattgctcattttacctatcatgttggcgaggactttccgcatctgatcagtggtattcgct ccattgatgatgccttgagatttttaccattgcgtaatggcgatcgtcttggtcactgcacggcgattggtattacacctagcatctggaaacgctctttgccattgtccttatccat gaccaaagagacgagattgctcgatttggtgtttatctggcgggaacttcgaagtcatccggaactgctgcgttacgctagtgatgcagcgattgaagctgttcgcttggctca taaagtgttttcgctggaagaggaagtctcgattaccacccttgatcaggtatttgaaatgcgggggctgttggccgaatcggaaggcctactgagtgagctaaatgaaccatt aaaacccaaatccctctggttggaagagtatgagcgcgccagagagttggttaaaacaacgggtatgaaaaggccgttgaagttgtataagcaatggctaacatctgacaat gtgcgaaagcagcgtgctgaatatgttgaagttgccctagaatatttgccggatgaagcagttgttgcattacaacaagctgtaatggcaaaaatggcagaccgaaacattgc gatagaatgcccaccgaccagcaatacacgtatcagtcagtaccgaaacgtcagcgagcatcatatctttcgctggatgggcttgccgggtgaggcgattgaaggtgatgtt cctatgtctatttgccttggctctgatgatccggggatcttcgctgcggacttgaaatccgagttctatcatctgttcgttgtgttaacccgaaagttcggtttgtcgccagcagatg ctttgagaaaggtagctgaggtgaacgagaatgggcgcatttatcgctttcatgatgtcagctagcctgtatacattgaggattctgtaattgttcaagaccagcagtgctcattg ctaactatctat (SEQ ID NO: 377) 13 STAND aaatctctttcgcgtcaatagtggtaatatttttttatcattgtcctctttctactgacatactgattgtccgacagtggagccagtcgaaattgttgacagctagtcggggctcgtct ggtctttctagcagtaagaaacgtattaatattggatcgccactagtttaacagatacctcagaattatttatagactgacaccaccccggcagacgatcctgccctataggaag ctaagtggaaacttatccagtaacagcttgtcgattttatcccagagggtgttcctcaggatgtatcgctgaaatcaaatccagcactaagaatgaggggtgagaaaccatttcc ttggtgggtctttgaccatttctgttgaactaatgtttttgggttatcaaggatacaaattcaaggcagtgtttcactaaaccttacctcgcttcaataccaatacatttttaatgggtat aatatgtgactgcttttgccgcattattgacaggaacaaggactggtgatgaatattgatttcagtttaattcgtagcgcccccaaaagccgtaacgatagctttgaagcactcgc cgtacagttatttaggaaaacctgtcgagtaccgacaaattcaacatttattagtctgcgtggagatggtggagacggtggcgttgaggcatatttccgctcaccggacggtgc cgtattcggtgttcaggcaaaatactttttccagcttgcttccgcagagcttacacagattgatagttcccttaaagctgcgctaagcaaccatcccacactaaccgaatactgga tttatataccgtttgacctgaccgggcgtgttgctgcgggaaagcgaggaaaaagccaggcggaacgctttgaagaatggaaaagtaaagtcgaatcggaagcgtcagcg aaagggaagtcactttctattgtcctttgtaccgctgctgttatctgcaatcaattacttgagatagacccttacggagggatgcgcaggtattggtttgatgacacgttgctgaca acagctcaaattcaacaatgtctggaggacgccattgcttttgccgggccaagatatacttcaatgctggatgtggtgacgaatgctcatgtcggcctggatttctttggtggga ctggtgacttttgcgagtggtacgaaacatcattaacaccaatcgttcgagagttccattcactgaatggatacggacgcaaatcgctggatatactcggcgaaacccgtgcta catctgccacggcattgattgaagaaataattgcctactgtgagagcatgagagataacaatgtcacggccacatcggttacagatctttccgtcgctctgtcatccctattgac acttttcgctgatgcccgccatgctcaagaagataaattttatgaaaagcatggcaagcatagtgatacagaatcgttccgacagttccacgcagagtatatgtgtgcatttcct gccggagatatggatgcggcgagaaaatgggaagagcaggcgcagcaactgcaaaatttgctgacttctcaggtcattggtgccgcaacagcacattccttactgctggtt gggccagcgggtatcggcaaaacccacgcgattgtcagcgcagcattgcgtcgactggaacatggtggtttttcactggtcgtctttggagacgactttggcaaagcagag ccttgggaagtgctacgcagtaaaatagggctgggtgccgccatcgatcgttcgacattatttgaatgcatacaggcctgcgccgaacatactggcttaccttttgtcatttatat cgatgcattgaacgaaagcccgcgagaagtgcgctggaaggacaagcttcccgaattgctcgctcaatgcaagtcttatccagacatcaaaatctgcgtttcaacccgagat acctatcgcaatcttgtggtcgattcacgctttccagggtttgctttcgaacacatcggtttttcaggacatcaattcgaagcggtacaagctttcgcagcctactatgagctggat gcagagattacaccacttttttcacccgaactcggtaatcctttatttttacacttggcctgtaaaacgctaaagggcgaaggccgtgacagtctggatatttctttgccgggtttta cctctctgtttcaaggacatctcaaacattgcgatgttttaattcgagaacgcctccactacgcaaaccctcgtaatctggtaagggctgcaatgatggcactcgcgaaaaccct gacacatgagttgccgcagaaccgaacgtgggaaacctgttgcgaagcactgagcaaaatagtgggaactgagaccacacctgaatcctttttaaatgcattggcacatga aggcctcattatcctttctgttgtagatgaggataccttcctgatccgtctgggttatcaacgctacggtgacatactccgtgctatcagccttgtggaaactcttgattcggataca gtaaaactagcggagaaaattgcagcgttaacagaagaagatgctggattgctggaagctcttgccgccgtgctgccagagaaaactgctcttgaaattactgctgaagaag taggattaccatccgaacaagcccataagctgttcatccagtcattggtttggcgctcccgacaaagtgtagtggaagaaattgatgaacacatccatgcagcactgcataca cctggattatgggagtcggtttatgaagcgctgttttcacttagtctggttcctgaccatcgtctaaacgcaactaactggctggggccatttttacggcagtcatccttagctgaa cgtgacacctacttgtcattagctgcgctgggatcatttgataataagactgctgtctattcactcatccatgcagcactatttgctgacataacccattggcctgctgaaagccg gaggctggccagtctaacacttgcctggctcacttcgtgtgctgaccgccgaatcagggatttatcctcaaaagggctaagcagaatcctggcaaactacccggagaactgc caaacagtaatcagtgaatttgcatattgtgatgatgattacgtattagagcgtattagccttgctatctacagtgcatgcttattgtcataccaacgcagaaatgcgtttatgccag cgctccctggtctattaagcattgcgtcagatagcaagaatattctgctccgggatacggttcagctattagtaaacttgttgaaaacaggagaatttcccacagccgtaacaag ccaattacagcattaccagacaaacgtatcattaccatcacgatggcctgtactggcggatgtcaaacccctcctagatctggaacatttaccatcaaacatggtgctctgggg agaatccatggccccggatttctggcgttatcaggtggaatcgaagatttccggctttgacttggagagcgccaatatcagccatgaaaacattgcctgttggttaatgcgaga agcacttaatttaggatatcccggttataaccactgcgcgctcaattatgatcgccatatcgggagtcagtatggctcgggacggggtagaaaagggtatgctgaccgactcg gtaaaaaatattactggatcgccttacatcgactactgggcattctggccagtaatgttcccgcactggaagacccatattccgactacgaacctacaagtgatcttctatggtc agtcgacgtccgtaaagttgacctgaccgatgtacgcgatatcaccgcagaaggtgtctatccagtactgatggaggaaacaaattatgcattccctgaccacaattcagatat caaaggttgggttaggaccgatgattttccaccttatgaagcttgtcttattcgaactgacgaggaaggagagcagtgggtagcgctttcacatagctattgggatgacgataa agcgccgaatgaaaatagctgggattccccgtacttgggagtgcgtgcttcctactcaagcgcactcataaatgaaagcatccagaactttaaacagaaaagatcacgcgat attttccaatataatcagggaagtagttgttatcgcggttatcttgctgaatatcctgacagcccggtatacaaacaacttcttaatagtgatgaagatagtgaagcgtttaattttac agaagtcagtttactgcgcggaaacgaatgggaatacgactactcatataccatgcccgagcgccaggataacctcattgcgccatgcctgggaattattcaaaaactcgaa cttttatgggattgtcaaagcggttgggttgatcattctggcaaacttatcgccttccatcaaaaaggtgtaaaacaacgcggacttttcatccatcgttcggcattgaacgcctat ctgtccataacaggtgaagagcttatacatcgccgttttgctaacagaggatattttgatttagctggtcgtaatagcacgcaaatagacctgaaaacttggatccagtaccggg cagacaaggcaccggtagttttacgagaagaggaactgccgtttaactgctgacaacgatacttattaagtaatcaactggctgccttggcatcgaatgccagaagagccatt tcgcactaccaatttaagtagactgaaggaatacttggtacaagcaaacgcacgccatatcggatagaggggact (SEQ ID NO: 378) 21 Trans- attatctgccaaccgataagatggctgcctaagtcgtagcgattcagcactgttttagcggcgctcgattgcaaagtcgtgctttgctgacttgcgattgtgctctttacgagcaa membrane agctttcaggtatagtaagtgctaactgtagtgtaaaattatagggatagatgaagaaaacaacgaggctttagctaatctttgcagttgtgtctgctataataaggcgaaatttta ATPase tctgcatgattttgtttgattaactccgaaagccagctctctcggtgaagattgggaagggatatcaatgagtgatgatagctataaatttcaaaagttaacgccgttcagcgatgt tgagctgggtgtatataaaaatgcgatagattttgtttttgccaataacgatctaaaaaatgttgcgatatcagggcaatatagcgcaggaaaaagtagtcttatcgaatcctataa gaaaagtcattcaaatataaagtttgttcatatctcacttgctcatttcagatcgattgaggaagctgaaactaatgaaccaagtaaagatataaatgaaaccgcgttagaaggta aagttcttaaccagttaattcaccaaattaatgctgatgatattccccagacacattttaaagtaaagaaaaaaataaaaactaacaacattgtgataaacaccatctttacggtgtt atttatcgccatgatactacatatcacgctatttaataagtgggaaaagtttgtttcacttttatctgaaggtaatataaagacactacttacattatcaactaaatacgatacgctttta attagtgggtttatatgtactatcctatcttgtattttcatttacaagttaataaaaacccaaaagaatcgtaatgttcttaagaaaataaatttacagggtaatgaaatagagatttttg aagaaagtaacgagtcttatttcgatagatatttaaatgaagtattgtaccttttcgagaacgttgatgctgatgccattgtttttgaagacatggaccgttttaatagtaataacatct ttgaacgtcttcatgaggttaacagactggttaatattcaacgggacacagcagggcacaagaaatcgacgttacgttttatttacttgcttcgtgatgatatcttcatttcgaagg atagaaccaaattctttgattatatcattccagttattcctgttgttgatagttctaactcttacgatcagtttatcacacattttgatggtggtggtattctcaagttgttcaatgaaagat ttctacaagggatgtctttatatattgatgatatgagaatattgaagaatatttataacgaatttcaaatttattataacaaattaaacacgacagaacttgactgtaataaaatgttgg ccattattgcctataagaatattttcccaagagattttagtgagttgcaacttaatcaaggtatggtttataccatatttagtgaaaaagacaaccttattattgaagaaataaagaaa atagaaaaagatattagagatagaaaaaaagagattgaggcaatcaatgatgaaatactcaactctagtcaggaggttgatgctatatacgataaggaattatctagatataata atcatcctcactataatcaggctgagaaagctgatatagcaaagagaagggcggctagaaaagaaagtgttgaaaataaatttaatggtaaaatagaagaaattaatgagctt atatcaagatcaagagaaagtttggttgattctagaaacaaaagacttaaagaagtaataactagagaaaacattgatgaaatatttaaactcacctataccaatgaaattggag aggaaagagactttaatgaaataaaaagcagtgagcattttgacttgcttaaataccttattcgtgatggttatattgatgaaacctataccgactatatgacctatttttatgaaaat agcctgagtcgaattgataagatgtttttacgcagcattaccgatcaaaaaggcaaagagttcacttatcaactcaagaaccccaagctggtcgttgcccgccttcgagaagtg gattttgaacaggaagaggcgcttaattttgatttattagcttatctgcttcaaacgccagcccaggtaaacttaataaaacgtttattcaaacaactaagaaaagatagaagagtt gagtttattcgtggttactttgaaactgagagggctcagcctgtcttcattaatcgattaaatacacagtggcctgagtttttttcttatgcgctgacagagagtgaattttctgctgat tgggttaaactctactctataggcacgttttattattctgccaatgacgccatcgaggccattaatattgatgattgtctgactgattacatctctgattcggcaggttatttagcaata tcagaaccgaaggttgacaaattaattagtggttttaagttgcttaacgtctcttttgtcagtattaaatttgaaaacgcaaataaagtactctttgatgcggtttaccagcattcactt tatgatattaatttttccaacctgaccttaatgctgagtaaggtttacacgcttaatagtgaagatgatattcgccataagaactatacactagtgatgtcacaacctgattctccctt ggctagttatgttaataaccatattagggactatctggatatggttttatctagttgtgatggttcaatcgtggatgatgaatccattgttttatccgttcttaataatgagggaatatct gatgaacaaaaaggccagtatataaacgctttgcaaactttcgtgacatctctgagtgaggttgagagcgaatctttatggtcatctttgttggataaagatagagcagtgtgctc tgaggaaaatattgtctcttattttgaacatgttgatggactggatgactcacttatcgaatttatcaatagaactgatgtagacctgaattttcaaaatattaatattgataacgagct taaaggtaaattatttaaatcgattgttatctgtaatgatttatcaaatgataaatatgaaaaattaatttgctcactaaatattatttgtaaaacatcctttagcgctagtaatatcgcga gtgataagttcaaaatattagtggataaaaatattattcgtatgaatgttgcgccacttaatttcatacgagataactattcagagcaactttcctattatattcataagaatatcaggg catacgttgaattaatgacgattgataactttattttggatgaggctatatcaatactttcttggaaagttgatgatgatttgaaagttaagctactcgagtttgttaaaactccgttgg ctatttatagtaagaattactctcaggtcgttaatgactatattttagaaaataattttaaaccagatgaacttctaatcttgacgtcatcttataaaacttggggaacctctactcagtc gctcatcttgagtcgagcaatacaggatatatcagcattgatagcaagtcctaatgatgtttctgaaccgttactaaaaaacctgtttgtcgcagagggactgaatatgcagaat aaaatagcactgctaatcgctttgttgccgggtaaggatttgagtaagacgacttgcaaagagtatcttgatctgcttggtttatcggagttcagtaaaattttggggcgaggcaa acctaaaattgaagttgattcaactaatcaaagtttattaacagcattaagagataaccacttcttctctgattttgaggtggataatgaaaatcccacttattataaaataacaagg cggcgctctatgtttggctcagatacatagcattatgtatttttctacagtttgggcacttttatagtgcccaatttttacgctgaaacttacgcagataatctgactttttcccagttga cgagtacacctag (SEQ ID NO: 379) 22 ATPase + atctatagcagtcatcatattggattattggtgaagtggtacactgaatttgcccacctgaacagagttggttttatcaaacctgtagtttactcaatgacgtaaaaattggtgatgt QueC + aaaggatataaaaatgtggtcagacaaagagtcatcagaagactacctaaattttggtgaagtatctcagttagccgtggatgtacttaccacgaaagatatgttaccagtatct TatD + atcggaatttttggaaactggggggcaggtaaatcctctctgttaaaactgatagagcaaaaacttgagcaagacgacaaagattggattgttatcaattttgactcttggctcta DNAse tcaggggtacgacgacgcccgtgccgcacttcttgaagtcatcgctacagaattgacaaaagctgctgaaggtaattctacccttatatcaaaaactaagagactccttagtcg agttgatggttttagagctatgggattactagctgagggtacagctttaatggcaggattacctactggcggtttgctttctagggggattggtgcattaagaaatatcaccgatg gcatccagagccaggaagagtatgaggctttaggcaatatagctaaagaaggtaaagaaactgcttgtggtttgattaaaccacaaacaaaaaaaagcccccctcagcaga ttgatgcctttcgtaaggaatatggggaaattctagaagaacttggaaagccactcattgtggtaatagataacctagaccgctgtctccctgccaatgctatccatacacttgaa gctatcaggctattccttttcttgactaatacagcctttattattgcagcagatgaggacatgattcgctcttctgtggctgattacttcaaaggggcatcacagcgccatcaaata gattatctggataagctaatccaggttcctattcgggtgcctaaggctggggtccgtgagatccgttcgtatctgttcatgctttatgccattgaacatggcttagaaggcgaaaa aataactatgctccgtgagggcttagagaaggcgttacagcaatcctggaaagatgaaccaatctcacgtcaggaggccttaaaaatgactggtgaagcggatgatagcaa cctcgcgctggcgtttgcgcgtgctgaccgtattgctcccattttagccaactctccaattattcatggtaatcccaggatcgttaaacgcttgttgaatgttgtgaaaatgcgatct caaattgcgaagcgacgagcaatgcctttggatgaagcaattattactaagctagtaatttttgaacgctgtgttggagtggatggcaccgctgatttatatcatctcgtggatatt gaacaaggtgttccccagatacttaaacagcttgacgataatggcggtcaaatacctactgatgcaccaaagacatggactgatagtccaacgactaaatctttcatcagtcaa tgggcccaacttgaacctcgtcttggtgggattgacttaagggccgccatatatctgtcccgagaaactatgccaataggtgcatatgtggttggtttatcgccatctggacgg gaagtactaaatgcactaattgaattgaaaaacactagttctcctacagcagaaaaccttttgaaagcacttcctcgtgaggagcaaatacctgtaatggaaggtttaattaacc agttacggcaggtatcagattgggatcgtaagcccagaggcttttccggcgcatgtctgttggcccgctactcaacagatgcagccagcatattaattcgttatctacaggaatt acagttggggatgaaacgaccagcgtggatgactgcagcattaaaagatgaacaatggaataaggacgcttaatgggaacatcacaatcaagtaaaggtccaggaggtgg ctctccgctggttccaccatgggctgatgatcagccacagcaaccgttaccctcgccgcaagaaaggaggtttgcgccatttcgagaatcgttgggaaatgcggtatcaaat ggaaatcgagcagatttcagaaaagccatagggcactacgcgcgaaaagcctccggagggagcagtaacgctgctcggcgattagggagtgtcacgcaagctggggcc gaattatttggggctttagtgggaatgccttcggctcccggagaaccaagcatcgatttgggcagtttggcaggccttccatgcgaaatagcaatatcaactattgctcaagctt taacatcacaggatggtgactcagaaaagatctgtgcggccatgaaccatgctttagtggaggctcttgatggcgtagaaattttcgatcctcaaaaaataactgatggtttgat tgttgacacaatgattggttatctagcggaaagtattttccttcagatggtaatggattctaatagggcatggaacaaagcagatacaccttcaaaggcaattcatgcagaaattg aactccgggaattgattaaagttgttgttgataaacatatggcaccaaaacttgccggtaacataagatcgttcacacgaaaccaaatggtaaaaattgaacgtcaggccattat tgaggcctggcaagaatgggaggcataccagtgacacaattagttttccatcataaacatcaccatttgccgccagcaagtgagaaagtgttacctgttcagctatatggatta agtggtcagaggcgcggagatatatctgttatcgggaatcctgcgattgatcggatcagacgtttgggagtacagcttccagctaaggtcatggattttctgagtgttgcattag cagtaactgcagcagatactttcgttcagcgtgaaagttccgaggatggttggacccgccaattgtcgttacgactcccccttcatgaaccatccagatggattagtctaaaga aagaacttgagagtgctttgcattttcttagtggagacatctgggatttcgaattttgtgacgatggttatgcaccgccagagccttatagccagcattcaaggcatcgtctgatta agctaaaagggcttgactgtgtcagcttattttcaggaggtctggattcagctattggtgcaatagatcttctggctgcagggcgcgctccacttttggttagtcatgcttataaag gggataagtctcgtcaagatcagattgctgaaaaattaagtggccaattttcgcgctttgagattaatgctgacccacacatttatcaaggcgtgactgatattacgatgcgaact cgtagcctcaattttcttgcccttgcggccgtaggtgcttgtgccgtacaagagatatctcaacaagaaaagattgatttgttcgtacctgaaaatggatttatctcattaaatgca ccacttactccacggcggataggttcgctgagcacacgaacaacacatccacattttattacgagcatacaaaagatctttgatgcgctcggtatttcttgtcaaataatcaatcc atatcagtttaagacaaaaggaaaaatgatctccgaatgttcaaataagcagctcttatctaaaattgtggaaagtacagtatcctgcagtcattggaaacgaatggggcagca atgtggggtatgtataccgtgtatcattcgacgagcatcacttcatgcagggggaattagtagagatgttgaatatattttccagtccttagctaaagtaatgaatgaaatagatc gcagggacgacctgatcgcccttaggattgcgatcacgcagaaatcgactttgaaaataggtacatggattgccaaaagtggccctttgcctacggcagaatttgataatttca agcaagtatttaaggatggcctagatgaggttgaaagctatttactgagtgagaacatagtatgagcatcgatatgcactgtcatctagacttatatcctcggccagacctcgtg gctgaagaaagtaaacgtcgagggacttatattctgtcggtgacaacaacacctaaagcatggcatggtacttctttattggctaaagaaagtcaacgaatccgaactgctctt gggctacatcctcaaatcgcgcatcaaagatcgcatgagttagacctgtttgattcattgctttcggaaactaagtatgtaggggaaatagggcttgatggtggacagggattta aagaacattgggatattcaattgaaagtgttccgacacattctcaacagtgtaaatcgggctggtggcaagattatgactatccatagtcggggaagtgcatcagcggtgcttg atgagattgaaaatatcgatggggtggcaatattgcattggttcactggaacacctaagcagcttgaaagggcaattgatttaggatgctggttctcagtggggcctgctatgct cgatacaataaagggtaaggccttagttttgaaaatacccaaatcacgcattcttacagaaacagatgggccatttgctaagtttcgtaatgacccactaatgccatgggatagt gggattgcagagaaacagttagccgcattatgggggattagtcagatggaggttaatgctcagctagttgataattttaaggtattatgtacatcataagaatgaaaaacttagat atgcatttacagttcaattcatttttcgtcatcagttaattacacataaaattaaaagtaagaatatatctaccctgtgaatgagcaaggcggatttatatagtttgtaattagtttaaat gtaagcagttcgtcagagtgcgtattccgctctattcgatcacggattggccgttatgaccc (SEQ ID NO: 380) 23 DUF4011- gctatcctacctcagattactgggctgacctaatctatagatcaggttctctttatactttatgttagcgaaatactaagatgcttcttagtgacgacctcttgacggtagaggacgc helcase- gtgcatagattttacaatcactgcctttcgccccctaacctaatccgcgaatgatgcatcctgaacttgcgcgccagttcttatactcgccgtcagagcaatcaaattgctgatgc Vsr- tttctgcctgttcaaggcatctcctgtcgtcagcaatactgtgcatatttgattgatttcctcttaaggagaattagtttcatgggtattaaagcgcaggtgagtatcgcgcacaagc DUF3320 tggggttcacatcacaccaaaatgcagttccgctgttacgtgagcttatcttgcataatgagtccgaagagacatttcaggatctgacactgcatctgaggaccgtgccagctg tgctcgaagaaaaaaaatggaatatcgatcgcctgcttcccggtacttcacttgatatcagagatcgggatatcaaacttaatgctgaatggctagccgaactgactgaaagc gtactctgcgaagtcacgctaagtttgcgccagggtgaggaagaactcttcattacccattacccgcttgaggcactggcgaaaaatgaatggggcggcagtgcaatgattg aattgctcccttcatttattattcctaatgatccggctgtggatcgtgtactcaaggcaacctctgatgtccttcgccgtgcaggcaaggatgacgctcttaatggttatgaaagca agtcgagaactcgtgtctgggaaattgcctcagctctctggactgctgtttgcaacctcaatatcagttatgcccttcccccagccagttttgaacgcaatggccagaaaattcg cactccaggagccattctggaaggaaaagtcgcgacctgtctggatacaacattattatttgcttcagcactggaacagattggtctgaattcactgctaatgctcagtgaaggt catgcgtttgctggtgtctggttacaaccgcaggaattttcgcagctagtgacagatgacgtctctgcggtgcgcaaacgtgtcgacctgaaagaaatggtcgtatttgagaca actctcgcgaccagagctcacccgccttcatttactcaggcatctgatgaagcgttaaagcatcttaacgaggatgtttttcacgcagccattgattcccgtcgcgcgcgtatgc agaaaattcggccactggctctggggggcactcgccttgaagaccagtcggatgcctgcgaggttattttgcatgggtttgaggaagccccctatatccccgatgttgatattg atatcgagacaactggcgaaaaagaagccggggggcggctggtacagtggcaacgaaaacttctggacttaaccacccgtaaccgcctgttacacctgtctgaaagcgct aaaggcattcgtttgatctgtgcgaatccgggccatcttgaagataaactggctgaaggcaaacgcattcgcattgtcccgctccctgatctcgaaagcggcggccgcgatg ccgaactttatcagcagctcacaaatgagaacctgcaggaagaatacgctcagattgcgctggaacgcggtgaagtcgtctcctcaatggaaaaataccgcctcgagtcatc cctgatcgacctctatcgaaaatcgaaaagtgatctcgaggaaggtggtgccaacactcttttcctcgctgttggcttccttaaatggaaaaaatctgctgatgaccccaaaagt tactctgctccactgatactgctgccgattcaacttgaccgtaaaagtgcactttcgggcgtgaccatgcgtttgctggaagaagagccccgcttcaaccttacactgcttgagc tgctgcataatgactttgctctgacaatcaacggcctcgatggtgatctacccaccgatgaaagtggtgttgatgtggatggtatctggaatatggtacggcgtgctgtacgcg acatacccggtttcgaagtcacccgcgatgtcgtgattggcacattctcttttgccaaatatctgatgtggaaagatctcatcgaccgggcacctcagctgatgcaaagtgcgc tggtaaagtatcttatcgaacgcggccaggaaaatgccgttctggataagagcggagaagtcatcaacgctcatgaactcgatgacaacatcaatacgcaggatcttttcttg ccgttgcctgcagattcctcgcaaatcgccgctgttgtagcctctgcaaaaggcagggattttgttctggatggcccacccggtaccggtaagtcgcaaaccatagccaatat gatcgcgcataaccttgcgctaggcaggcgcgtactttttgtcgctgaaaagaaagcggcgctggatgtggtctatcgtaggcttgaggcccagggactcggtgaattttgtc tggaactgcactcgagcaaaacgtccaagatggattttctgaaacagctcgagcgggcatgggatgcgcgtgatctactaaccaccgaggagtggaaggaagaagcggc caaggtgcagcacctgcgtgacaaactcaatgaggttgtccgtttgctccatcggcgctggcccaatggcttaacactccatcaggcaatgggcacagttatcagggatgca agtagcgccacgccgcactttagctggcctgcatcgactttgcattcttctgcagagatgacacagttcagagagatagtaaaacgtctggagctgaaccgtgatgcatggaa acagcacggcgatcattttgaactcatcgcgcaggctgactggaccaatggatggcagtcctctctcattgctgcagcaaactcattgcctgcaaccatcgatcaccttgaag acgcgaccgaggcgttactgaaggcgacgggagttactctgctctctaccgagccggagagactgtcgcagttaacttcattctgtgaattattgtcggaagcttacggcatt gatctgagtttcatgttcgcaccggatgccgcaagccgtatagagtcagcgaataaagccgttcacctcctgaaagagattgaagcgacaaaggctaatctgtcagttaccta cccttgtaacagttggcagcacgttaatgtcccacagatcagaaacgcacttgacgtcgctgacaaaaaattctggttctttgcgaccagtgcccgcaagaaagtcattggtg aagttatccgacaacactcgctaacgtcagcccccgacttatccgttgatctccccattgctgaaactctgcagacattgctgcaacgtctgaccgagcttaactctgctactgt atctctgccgggatgggttggactggataccaacgttgcacagttgcagaccaccctgcaacttgccgaatctatccgcaattcgcttggtggtttcgcttcttcgccacagca gttggccgagatccgcactgcggtaaaaaacctgattgttgatgccaatgaccttctcggttcgcagggcgttatctccgcactaacccggaaactgcgcacagcgatcgcc gatttcaatgatgcacaggttagcttctgcaatctgataaaaccatctgaggataaaccatcgctcccggcactgcgtgactgcgcactcaatatcctgcaacatcagtccgct cttaaagcctggagtgactggagccgtgtgcgtgaggaagcgatttcacatggcctgcaaccagtgatcaacgcgctggtccatcttgactcaggagacatcagcgcggca gagatttttgaaactgcctattgccgctggtttgcatcgtggatgatcgattcagagccgctgctgcacaattttgtgccggctgagcacatgagtgatattgaggcttaccgtac gcaaaccgatcgtctgtccaaactggcagtacgctacatccgtgcccgtttatgtggcgtcattcctgcaaaaaatgaggtcagcaagcagggtggttttgctctgcttaaaca tgaactacagaaatcccgtcgtcataaaccggtacgtcagatggcagcagaaatgggagatgccatggccaaacttgccccctgcatgcttatgagtccgctttcagtcgcc cagttcctgccctcggaccaggacttgtttgaccttgtgattttcgatgaagcatcgcagattgccccgtgggatgctatcggcaccatggcgcgtggcaaacaggtggtaat cgctggcgatccccgccaaatgccgcctaccagcttttttaatcgtgcagccaatgacactgacgatgatactgaagaagatatggaaagcattctggatgagtgtcttgctgc cggcctgtataaccacagcctgagctggcattaccggagccgtcatgaaagcctgattaccttctccaaccatcgctactatgacagtagcctgattacgttccccgcttcgga aacaaagcaaagtgctgtccagtggtgcaaggttgcaggcgtctactctaaagggaaaggacgtcataatcaggccgaggcagaagcgatcgtcgctgaaacggtgaag cgactgactgataaagagttcgttgcatcaggcagatcgataggcattatcacgctgaataccgaacagcaaaagctagtcagcgatctgctggaccgtgccagacagcaa caccctgaaattgaacccttcttccagtctgaactggaagaacctgttgtggttaaaaacctcgaaacggttcagggggatgaacgcgatttgatcatactctgcatcgggtac ggcccgactgaaccgggcgcaaatacaatgtcgatgaattttggaccgcttaatcgcgagggaggctggcgccgactgaatgttgccgtcacacgtgcgcggcaggaaat gatggtcttcagctcgttcgatccttcctttatcgaccttaatcggaccaacgcccgcgcggttgctgacctcaaacactttattgagtttgcccagcgcggccctgtagctcttg cccaggcagtacgtgggtctgtaggcggttatgactcaccgtttgaagaggcagtggcaaatggcctgagaagaaaaggctggcatgttgtcccgcaaattggcgtatccc gtttccgtattgatttggggatcgttcatccggataagcctggcgactatcttgtcggtgttgaatgtgacggcgccacttaccatagcgcagcaacagcacgcgatcgcgata aagtccggagctccatcctgcagggcctgggctggaaattactgcgcctctggtcaacagaatggtggattgataaagaaggcgcactcgacaggctggatgcagcaata agtcgcctgctggaggactccagagcagcggaagccgcactgattgctgaagcagaaaaacaaaagcagattacgccagtcatcgctcccgtaaccaatgatgtcagtga tgacatactggtttctgaaactacacctgtcgctaatgatgcggaaatatccgcgtcagtaacccctgtcatcccgcttactgccaaagtaagcgaagatgatggtaacactgg gctgaggtatgcatctttagcttctcagaataacgacaagccagtgaatgtcggtaagtatgtcgttaacgatcttcaggaatggtgcgacaggacagatgcagaacaattcta tatcgctgaatatgatgagacacttaaaaccctcattgaagcggtggtgacaagtgaatcaccggtcctggatacaacgcttgtgcaacgcatcgcacgtatacacggcttca ctcgcgccggcagactgatacgtgaacgcgtaatggaaattgtggatcaacactatcaccttgcaaccgatcactcaggtgaagacttcgtctggctgtccgcagcgcaacg tgctgactggaatgtgtttcgtttgccagccacggataacgacattcgtcaggttgacgcgatccccagtgaggaattacgcgcactggcgctgagtattgaaggtgacaata agatacaggaaatgacccgctcgcttggcattaaacgcctgactagtcaggcaaaaaaaaggattgaatcagtacttgatgttgtttgaaggtcaaccgtgtggaaaacctctt ttagagactaacagtctgaaatatagagtcttattcgatcatcttgagaccgaatgtattagagtcgatttctgacacctcttatcgtggttttctgcatcaccaacatcgaccagtt gggcgtaatcaaggaggacgtctggaaaacgaatctatggtcactcccgtttttgcaacaccgattttgacaataagttggtttgcttgaatctattcggcatcagaatggaatttt ttttccacgcctcgatgagttccgcgcctgatgaa (SEQ ID NO: 381) 28 ATPase + ttaatgcaaacgcatcaggaagggcagacctagtcacatgtagaatacgatagcaataaaaaagtctaattagaatgcaaattgatgcaactctatgccctccaagaactcca protease aacctgaaagatttatgtaaaacatagtgttcgtttcaccaaaatacatataaactacattaaaatagaaatttgtctcacctataagccatttagacaacagattaatgaggtttgta (ietAS) tcacaaatgaccacaaacgagatactttcgcagcttatcagtcttggactcaaaggggataaagttgcttttgttcggcaggcttcgaaactcgcgcgttcctatgattctatggg gctgcctgagcttgcttcagccattagaggtagtattcaagataaaaacacgtttaacttgcagaaagtatcacgcagtacatcacctatttttgaacgtcttgatacattacctgt agataaagaaactaaatttgatttagcagacgtaactcaaccgtcttctgaaattcaactcccattgttgaaagatagcactctgaaaaaaattaaagaatttttgactttcactgaa cgagctaaagaattaaaggatgccggtcttggcgtgacatcctctatgattttatatgggccaccaggttgtggtaaaaccttgacatcaaaatatattgcatcctgtctaaattta ccgcttcttactgcaagatgtgactccttagtctcatcatatctggggtctacttctaaaaatatcaggcagctatttgagtatgcaagtaaagcaccatgtgttttatttctagatga actagattctctagcaaaggctagagatgatcagcatgagttaggtgaactgaagagggtggtggtttctttattgcaaaatattgacaatctacctgaagaaacaatattgattg ctgcaagtaatcatgaaaatcttctagatagcgcagtttggaggcgctttgagtatagaatatctattggattgcctgattttgaagtcagaaaacaactatttgaacaatattcaaa cataaaagctacatatgacgattttgttgatgaccttgcggaaatatcatcagggctaaactgctcatttatagaacaatgctgcttaagatctgagcgacatgctctggtttacaa taataaacaaatcgatacccgatttttagtcgaggctatcttagaagcgaagggagttacatttgatgaagaagataatttacttataaagattgtgaccactctcagagaataca atcccaaaagatttacaatacgaaagatagcaaaaatactagggctttcaaatgctaaagtgtcaaggctaactaagaactatagagagatattatgagtaacaaagaaagac caataaaaataattgaggcgacacctcaagattttactgaaaaaacatataatttcggaaagaaacaacctatccgaacagtaacaactagtctaaaaaatagactcaaacaa gaagtcgatgacgttaaaaattttttccagagctcatttaaaaaatggcccaatataccggcggtggctagagttactcttcatgaaaaagctcttgctaagtcacatcgcccatc aagcctattaggtgataatacatgtcccgtaataggcagtgataattttggagaattacttataagtgttactgaaaaagggttagcacaacttcgcaaaaaaattgaaaatagca ctaattctcataatgggacagtacatattgctgtaattgaaaagatcgaaccttttagtcttaaccatgatgttatagataaaaataaatcagatagttttcttctgaaactctttgacc ataaagatagaacaactaaccgcagtatcgacaaagaattaatggaatttgcagatgaactaggaatacaaaaacccaaaaagtatgatatcagttcagatttgagtatatatg aagtaaaagggaatgataacatcgcccaactggcaagttttattggcatacgaaaattagaacctatgccaacatttggtcttactcatacagtatcgcaatatattcctgctgaa actctagacctagatgattttcccttacctcaagaggataaacattatccactactcggaattatagatagcggagtcgatcccaataacaacatacttaggccatggatttggga tagtttagatttagtaaaaggagaacacgactattctcatgggaacatggttgcaagtttagcaattaatggaagatggttgaataactatgctggttttcctcaatgccaagctga aattgttgatgttgcagcctttcccaaagatggtacgctcaaattgccacaattaatgaaagctatccgagaggctgtgaccacctatccagaagtacgtgtatggaatctgtca ttaggttgtcaatccccatgttctgaagacagcttctctgaattggggcattttttaaatgcacttcatgatgagcatgattgtcttttcgtcgtagcatccggcaactacatttatgat cctcaacgaacctggcctcctcaagaattaggtgggcatgacagaatatcagcccccgcagattctgttcgttcattaactgttggctcagttgcccatttagaatcgtctgactc tgtggtcaaaagatttgaaccttcatctttttctagaagaggtcccggcccagcctttatacccaaaccagagataaatcactttggaggtaattgtgacagtaaattaaactgtg aacataccggaatcatagctattggcgaggacaatgctctttgcgaaagtattggcacaagtttatcagcaccgttaatctcaagtttagcggcatcactgtggcatgaactaga tgttaatggttctatttcaccatcgcctgaacgtatcaaggcactattaattcattctgcgttaaaaaactcaccagccaaaacggagcattatgcgtttaattatcaaggatttgga cgcccaagcgatcatataaatgatattattggttgcaataaaaatgagattacatttctatttgaaatagatacccgagaaggtattgaattcagtagaacgccatttgtaatacca cagtcattacgtactgaggatggaaaattcacaggtgaaattattatgacactcgtttattctccaccgcttgattatgactacccatctgaatattgccgttctaatgtggatgtgtc attcgggacttacacttatgatccagttaacgctaaatggatacatagcggaaaaattccacaaataaaagaaaagagtgaattatttgaaaaggtactgatagaaaatggcttc aaatggtctccagtcaaagtttatagaaaacaatttccgcaaggtataaatggggagcaatggagacttaaacttgatgttcagagacgagcagagcaagagcctctatcttc acctcaacgtgctgtattggctattacgttaagatctcttgccaattctactacagtctacaacgaagccgaggttgaaataaataatcttggttggaaagaaactgatattgttgtt cgtgaacaaccaaaaatcaggattcgtcaaaaataagcattatggtcaccttttataggtgaccattta (SEQ ID NO: 382) 28 ATPase + gggacactcaggttacataacaatgagtgatacagttcacgtagtgaaggtactatgcctaggtgtttgattacactttgatcattgatgatacgctcatgaaggtattactttcct protease gtaatgagcaggtaggtaacgatgtcgaactaaatgaatttatagtaaactttgcaacaagagaacaagggagtatgaggggttatggctactgcagagcagatcaaagcttt (ietAS) attgaaaagccacgttgatcgtgatgatcagcgtttcttttctattgctttgcaggtggcagctaaggaagcaaggcaaggtcatcataagcttgctaatgatataaaaaacttag ttgataaaaatcagaaaacaacgagttctgtaggtttagttgaaaaacgacttacaccatttgttaagcagcctgatggtgatcttaaggggttacttgagcaaacgaacaagcc agtacatcttcaagatctggtgatttctggaagcgttagggaaagattgaatcaggttctgcttgaacaaaaacagaaagataaactttctgagtttgggcttattccaagaagaa aaattcttttcactggtcctcccggtactggtaagacaatgtccgcatcagtcattgctacagagttaaagctaccactttatacagtcgtcttagataatctaatcactcgctatat gggtgaaactgcagctaagctgcgtttaatttttgaccacatacggcaaacaagagctgtatatttttttgacgagttcgatgctataggaactcagcgtggcgctcagaatgac gttggagaaattcgtagggtcttaaattcttttttaatgtttgtagagcaggatgattctgagagcatagttttagctgcaaccaatcatccagagcttttagatcgcgccttatatag acgatttgacgatattataccgttcacaaggcctgaggataatctaatcaggaatcttattgaacagagactcgctgtctttgacctcggtaatttattttggagtgagatcattgat agtgcttcaggtctaagtgcagcggagatcacgcgagcaagtgaagatgctgccaaagaatcagtgctttataatgcaaacaatattacaaccgatttgttagtaaaggctata aagcgtaggcaagaaagtagacaataagggatgaaatgactaccaacaagaggcatattttattaaacggctatgtttcccccgaaaactatcgctctaggagcaatggtcgt agtccccaagtcccagctcgtgatcgagcggtacatggtatatcattactaaatcagtatagccgtatattgaatcattatgatgaaagaccgaggcttccccctgttactgatga aaaagggatttatgttaggctaatcagttttgaacaatgcgatcttcctatagataaaatcgataatacttatttcaagctttgttctttagttaaatcaaataatcgtgaaactgcgatt atatacattaatgaaaatgacagaactaaattcactaaaaaaataaatgactatttgaatccatcgaaggatggtatcgagttccctagaaatcatttgttaattgatagcatacaa aatatcgagttagcagatataacttctttctggacagataaaaaagatcttattccggatgatcacggtgttgaaaagtggtttgagctttggcttaagggtaataaggaggatgt gctaaatattgctcggcgtttatgcgaaagaattaatggaaggctcgggaatacttctattaattttttcgatactactgttgttcttatccgtacgagtctatcgagattaaaagtttg tcctgaattaatatctaatttaaaagagataagatcagcgagggatgatatatcagttatagttaattccttacctacagaacagcatcagtgggcagaaaatgttgctgcaagaa ttacgcgtaacaatgaagctgatgtttctgtttgtatattagatacaggtgttaactacaataatccactattatctagatttactaactcatcactggcagctgcttgggacatatctt ggccacttttcgatgattataatcaaaggccttataatgaccacggttccagacaagcaggactatgtgtttatggagatttcctgtctgttttattgaacgatcaggacatttcgat tccgtacaatatcgaatcaggaaggatactacctccaagagctactaatgatcctaatctttatggagctattactacaggaacgtcaagtcgtctggagctggaaaacccgaa ctggcgcagagtttattcgcttgctgtgacagcagagcctaatactcttggaggccaaccgtcctcatggtctgcagagattgacaagtttagttttggtttagaggatgatatcc gcagattatttataatttctgcgggtaactctcaacctacaaatttagaattagattattgggattcagtgactcttgctgaaattgaagatcctgctcaatcttggaatgcattaactg taggggcgtatactgataaaacaacccatacagaccgcgaatatgatggttggtctcctttcgctatgtcagaagatattgcaccgtcatctcggtcatcggtatcctggggatg gaaaaagcatgccccatataagccagatttagtagaggaaggcggaaacaaacttatatcacctagccgtgatgaaatcacaaatacaattgaattatctttgctcacaacctc tggcagggcaacaaatcaattgtttgaagttaattcagatactagcgcagcctgtgctctagtatcaaaacatgctgctatgctaatggctcagtacccagaatattggcctgaa actattaggggattacttgttcatacagcaagatggactagtcgtatgcacgaacgatatagaacagaacgtgcacaggggacaccaaaatcggctaaagaaagcttattaa ggatggttggttatggagtacctaatttaaatcgagcaatgcatagtgcggaaaatgcacttacattaatatctcagtcggaaatcaccccatttaaaagagatggttctactgat cctacattgaatgaaatgcatctgttttcactcccttggcccgtagaagctcttcgcttactaccaccagaaacaaatgttattttaagaatcacattgtcgtattttattgaacctaat ccaagtcaaaaaggattcagacgacaatattcgtatcaatctcatggattgagatttgcagttattagacctaatcagacccttgaaaatttccgtgcttcgataaaccgtaatgc gaataatgaagaatacaatggacctgaaggagatgcgtcaggatggtttctggggcctcaactcagagttagaggttcattacactcagatgcttggaaaggcagtgctgca gatttaacagagatgaatactatcgctgtctatcctgttggtggatggtggaaatatcgtactgcgcaggatcgctatattaacaatgttaaatatagtttattggttagcatagatg taccagatgagaacattgatatttacagtgagattcaaaacattattcaaattgataatcaaatagatattgaacattaaggttttatgcctaaggtttaatgagtttgaaatgaaaaa tcctttactaattggctgggtcgatgataaagacctggccatctttttatacggaaatgatttatgttttattttactaaatttatattagaaccatcgtgcagattgtgataattccttcat actgattttttacctattatagttgatttttgttgcttgatatctctctttaatacaacggcgtagtac (SEQ ID NO: 383) 30 Retron- tctatctaaaagtatacatatagtatttcaatgaaggttatattatattttgtggctgttttctaattttatcaataagattattgcaaaaggctgataaatataatagctttattatatcgga protease ggagttgatttaactttcctatactatctgtataggctaataccaatggcaattttgccctcaaattggtctccttaatgtttatcaacgtgttatacggtagtgataaaacctcctccg atatttttctcatgaattgggatattttaaatatgttttgctcagtaaccaagttgcatgaatgtaaaaatgttgaacaattatactattttttaggatgtgaagaggctgaaattagtag gtttttatatagtggagtaattaaataccgctctttttccatacttaaaaaaaatggtaattttagaaatataagagcacctgtaaagtatttaaaagaaattcagtataagataaagg atgagctcgaaaaatattataccccgaaatcatgtactcatggttttatagctggaaggaatataatcacaaatgcgaaacctcatataagaaaagaatttattttaaatatagattt aaaggatttttttgattcaattaattttggacgagttagtcgtttatttcaaagccaacctctaaacttgccagagaatgttgcccatgttttggcacatatttgttgctataatagagcc ttacctcaaggtgctcccacatccccaattatatctaatatgatatcttatcgtttagacagacaattgaaggagttggcaagaaataatgcgtgtacttataccagatatgcagat gatataactttttcttttactaaaactaaaaagtatcttccaaaatcaattgtttctttaagtaaagataataacattatactaggccatgaattaaaaaaggtaattgaagataattggt ttgaaataaatgaaggaaaagtaaggttacaacataaaacacaaagacaatcagtaacaaatattacggttaacactaaaattaatataagtagaaaatttaaaaaacaaacttc agctatggttaatgcattatttaaatatggagcatctaaagctgaaagagaatattttagtaagtatcacaagggttatatagcagaaaggcaatataataagattaaagaaaaac caggtttattatttacacaaaaagtaagaggaaggttgaattatatccgattagtttgtggtaagaataatgaaagctggagaaagctcatgtataaatatactgtggcaatagga caacctaatgaggagtacaatagaacattgtgggatattgctggtgattcaacgttcattctttggtcgaattcctcacaaggaagtggtttttttcttgaaaatattggtttagttac aaatgagcatgtaatcgaaggaatagaaaacagcaatattaataatgatctaataatactttggttaccaaatgaaagaaaagaatatattgagttacacttagcttggaaagatg ataatactgatttagctgtaattacttctaatatatcttttcttgacataaagcctttacaagtagagccagttcctatttatgatataggaacagaagtatatgcagttgggtatcctaa ttatgacgccagaggctcaattggaaaacctactattattacagcaaaaataacgagtataattactcgagaaaggcaagaaagaatcgttatagaccaaccaatagtacatg ggcatagtggtggggtcgttttaaatgctgatggacgtgtaataggcattgttgcaaatggaaatgccgagggggaattaagagtagttcctaatgcttttattcctattgaaatat tattaaatgagcacaagttacgaactaaatcataaaattattattcttaaaataattaaatattttttaaaaccactagtttgataactagcggttttttatttttggagtacat (SEQ ID NO: 384) 30 Retron- ctttaaaatgtttcatacagcatacttgtataaaaaaaactttatgctataaagacataagtggcggcctttgagtttaactttcctacgactatctgcgtaggtcatttttcaacggca protease gttttgcactctaagtttgccgataagtttgtcgcgcagctggcaatagagaaaacatggccgccactcttccatataaggatttttatgccctcattttcattaaaagaatgtaatg acgtttggaaattatgtgatttactgggagttaacttcgaaaatctatctaaaaaagtatatccaagtaataataggttatatagatgtttctttattccaaagaaatctggtggactaa gagaaatatactgccctattaaatcacttaagaacttacaaaagaaaataaaaatagagctagaaaaagaaataaaatacagatcgcctgcacatggatttattaaagggaaa agtataataacaaatgctgaacaacatataggaaaaactatagtacttaacttagacctcgaagattttttcaaaaatatacattttggcagaataaaaaaattatttgaatcaagcc cattaaatttaaaacactctgtatcaactttccttgctcatatctgttgtagaggtggtgtattaatagctggttcgccaacatctccgattatatcaaatatgatttgttataaattagat ggtcaacttcaacgtttagctaaaaaaaaccactgtacatacaccagatatgcagatgatataacattctcttttacttgctcagaaagaaagttgccgagagggatcgtacatat agatgaaagttcattattaggttttaaattaggcgatgagttatctgaaattatttcaagtaacaacttcactctaaatgaatctaaaataagattaagtcgaaaatcacaacgtcaa gaagtaacgggtttaatagtaaattcaaaagtaaacgtaaaaagagacttcattcgcagaacatcatctatgattcatgctctaaaaattcatggtgctgaagacgcagaaaaa gaacattatttaaaatataaaaaaacttatataccagaaagacaaaataaaagacaaaaggataaacctggagatctatacacaaaagtaatcaaagggagactaaactatctt agaatggttagaggtgaggattgtaacttgtggcgtaaacttatgtatgattttactgttgcaatgaagaatccagatgagtcttataaacgaacatggttagacgatgcggcag agtctactgtgatatttaacacttacgatgggtgcggcagtggttttttaataaatcatgatatcaaaaaatatcccaatggactcattattactaattatcacgtgattcctgagata aatagtgataatatttcaaacattgaagttcatacatggatgaatccttctaaaggatttttattacttaaatttgtagcttcaagtaaagacttagatattgctatattaactgcggaca taccatttccagttagtaagtttttggttgtaaattcatgtcctaactatagacctggaattaaaattcataccataggatatccagattattcatctggagaggatccaacttttatatc tacaaaaattaaaggtaaaactacatatcatggtcaattgagatatcagatcatagatgaaataaaacatgggaatagcggaggccctgtctttgattcagatagaaaagtcata ggcattgtgtctaatggaaacgaaaaaggtgcaccaaaaaacaataagagtagcttcataccaatcgagaccttgcttgattttataaattgtcaaaagtaaatgttttaaaaaaa ccatacattgataactatatttttacacagtaaaaaacaccataatcttatatggatatcagatta (SEQ ID NO: 385) 30 Retron- aagaaaaaggaatcttctaaattaatgaaactataattatacgaatcagtaataccacagttattgacatattttgtaataagctttatttttactaaagcacagtacatcatacaaatt protease taattttctactgacttatcagcggtagccataaacgtgtatcttctgcctcagctatcctacagtttcttgtggattgtcgtcattgcaaaagagaaaactagatgatgtattgtgct cccctttttaaaggactcgcatacaatgtttgacccattcaaagtagcgccgccaaaattgaaactacatcaatgtgtagacgttcatgagctttctgcaatattaggaacgaact acaatcagttatcaaaattaatatatcctaccactcaaaattcttattattgtttcagtattgataaaatgaacgggaacaagcgagttataaatgcacccaaaaataaattaaagtc gatacaaagacgattagcatatttacttaatgagtattatcctgtcagggatgttgctcatggttttattaaaaataaaagtattgtgtcaaatgcagaacagcatgttcttaaaaact gcgtattcaatatagatttagaaaacttctttggtcagatccatttcgggcgtatacgtaatttattattttcaccgccatttaacttttcaacttcggtatcaacagtaatttcacatattt gctgtagtgatggttttcttcctcaaggtgcaccaacatctcctataatatctaatttaatatgttataaattagataatgaacttaggcgattggccgtttatcataaatgtacttatac aagatatgtagatgatataacattctcttttacatgcaaagcaaatagaataccatcacaaatagttgtatcttcaggaaatacggtaacgccaggtaatgagataaatgcaataa taacaaggaatggtttctctataaacgacaaaaaaaccagactgcaacaaaagaatgaaaggcaaatagttactgggatagtggtaaataaacggacaaatgttcaacgga gttttgtccgaaaaacaaactcaatgctgtatgcatgggaaaaatttggagctatcttagctgaaaaggattactttgataaatacaatagcaagattaaaactataaaactaaaa gatttcattgataatccgggagagttatttaagagtatcgtaaaaggaaggataaactatataaaaatggttagagggaaagatgatgtaatatatagaaaattcgcccatagga tatcttgtttattcggcaagtttgataataggtatcttaaaacaccgtatgattttgctattgaatctacatttgtactcgaaaatagatgtgatgactcacaaggtactgcatttttacta gagagaatagggttggttacaaaccatcatgtcgtagaagatatctgtgatatcacagatgagtttattgacttattcttatggaatgaaataggcaatattcgaaagacaaaattc ataatgtcaaacaaactgtttgatattgccgttttcgaaagaacatccgacttcgacaatataacaccattaaaaattggtgatgatagtggaataaaaaatggtactgttattaca gtaattggtttcccacaatattctcctggtgaaagcgcttatgtgaatacaggaaaggtaattcaatcgaaaactatgtatggtaataaattttggcttattgatatacctgttattcat ggaaatagtggtgggccagtattaaatgacaaatttgaagttataggtattgctagcatcggtacagcgaagaacgatagttcatctaaacttcatgggttcattcccatatcgac tttattaagatatacgggtgaagataagccttaatctctctttctctaagtgatttttaaagcgcctacagtccatactgtctggcgtttttttttgttaccggtcatacgtgccattctga tgctgagaatatgacattgggcat (SEQ ID NO: 386) 30 Retron- ttacattactatataatatgcaattaaaatgaataatttatactattgacatattttgtaatacgctatattttttaacggcacagcgcattttatcacaatttaactttctactgactatctg protease cggtagccataaacatgtaacttctgcatcggccgactttccgtatctcgcatgtttgccgaatttgcaaaagagaaaatagataaagtgcactgtgccctatttaaaggaatgat aataaaatgtttaatccaaccaatatattaccaccaaaaataaaattaaataaatgtggtgatgtacatatattagctgcgttatttaatttaacttatgaagatctatctaaattaattta tccaactccaaatagatcctattatcaatttgctatcgataaaaaaaatggtagtaaacgggtgattagcgctcccaaaaagaaattaaaaatcgttcaaaaaaagatagcagat gaattacttacactttatcctattcgtgatgtttctcatggttttattaaaggaaaaagtattgtttctaatgcggaaaaacatgttcttaaaagttgcgtacttaatatagatctcgaag atttctttggaagtatacatttcggaagagtaagaaatttgttaacttcaccttcatttaatatacccttacctgtagcaacagtgatttccaatatatgttgttataacggatccattcc acaaggagcacctacatctcctattatttccaatttaatatgttataagttagataatgaattacgacaactcgctggtaaatataattgcacctatacgagatatgtcgatgatataa cattctcattcacatataaagccaaaagaataccatatcaactagttacctctgatgccaacataataaatataggagttgaattagaggaaataataactagaaatggtttttcaa ttaacaaaaacaaaactagattacagagtaaaaatgaaagacaaactgtcacaggaatagttgtaaataagaaaactaatttacagcgaaaattcatacggcaaacctcatcc atgttgtatgcatgggaaaaacatggcgtagtagctgctgaaaatgaacactttgttaaatataacaaaaaaaataagctaataaaattaagggatttcgtagataaaccagga gagttgttcaaaagaatagtaaaaggtcgaataaattatataaaaatggttagaggtgaagacgatataatatatcgtaaatttgctcacagaatatcttgtttatttggcaatgtaa ataatagatatttgaaaactccatctgattttgctattgattcgatttttatcttagaaaatgaggtggatatatcacaaggtacagctttcctcttagaggatgttggtattgtaactaa ttatcatgttgttccaagtatagatgaatataatgatattgacttatctctttttcgatataatgaattggataataaaagaaaagtaaagttcataatgtcaaataagttatacgacttg gcgatattcgatactaatggcaattttgatgatataaagaaattttccataggggatgattctaatttaaaggtaggttcagaaatatctgttattggcttcccacaatataccacgg gagagtacccttatataaataccggtaaaatagtccaatctaaagctcttttcaataataaaatctggcttgttgatatacctattattcatggaaatagtggtggtccagtttttaatg agaaatttgaaattattggcgttgcctcaaatgggacggagagaaatgatcagtcatcaaagttacatggcttcataccaatatcaacactaataaaatttattagcagtaaatga ttttaatattaaagtgataagcgcccctgttacgcacacagagaggcgcttttttatttcacctctcatgatgaatcgtttcgagccaaaaaggcagagt (SEQ ID NO: 387) 31 RT- agggatacgccacagcaagaaatagtttacttattcctcattttgtcgactaaaaatcgacattaaacaaaaaattcaaacttaatcactttcgggaaaaatgtgacaaatatatgc nitrilase tcggactggttgcggggagcgtgtaacatggatacaaatcaaaattattgccagcctcactgatggattactggtgtcaagagccccccttcgggcatgaaacggctggcta (UG5) attctgtacagactgtaatctaaggacgataacgcatgacatatcaggcaattttcactggctgggatgatctgacgattgaagaccttctggtcgcttaccggaaagcaaaag ccgatagcttctttgagaatacatttcctgttgctatcaaatttgccgagtatgagcaggaattacttgaaaacctgcaaaaactcttagatcttttgcagagcgaagatggattca gtagcaataagaagttgattggcaaatttcgtttgttaccgaaaaaattaaccacaaagaaaaaacatgaatcccaaaatggacacgtccacttttctaatcctaaacgagcag ccgaccatttatttaataattttgatctgataccagagtttcgtattattggtgacttcccggttgatagtcacattatctctgcactatggattaacatggtcgggcataaatttgatgc cagcttagataactgttgctatggcgcgcggctaaagcgtattcgtaatgatgaattatttagcaatgagcaggataatccattccatatcagtgccgtgggttcttttagccccta cttccagccctaccaaaaatggcgtggtgatggcttaaaagctatacgtgacgagttggaaaaagatcgtgacattatcgccgcctcactggatttaaaaagttactatcatttta ttgatccactggctataacctctgatgatctctataacacactaaacataaaactgactgaggatgaaaaagcgtttactgcacagttagcagtattcttaaagcactggtctgac ggcgcagcggcatttggaaagaaaatagcgtacaaaacacctgttattaatggtggtctggtcattggattaacagccagtcggatcatttcaaatatattgctacaccattggg ataaattagtcattgaaaaactatcaccaattcactacggtcgttatgtcgatgatatgttccttgtaatacgcgatacagggacaattactaataatcacgaatttatgttattgctg caagataggcttggcaatgattgcgtttatttgaaaaacgagcaaaaacaaatatggcaaatacagcagggcgagcatttccagggtaagaccaccatccagttacaatccg ataagcaaaaacttttcgtgcttcaagggagggctggaatagacctgctcgacagtatcgaaaaggagatctacgagctttctagtgaacaccgcttgatgccttcaccggat caactggaacactccaccgcagctaaagtcctttccgctgccggtagtgtaggtgaaaatgccgatactctgcgccgtgcggatggattaaccattcgtcgtttgggctggtc actgcaattacgctacgttgaaacactggcacgagatctgcctccaagtgaatggaaagaacagcgggaagagttttatcagtttgcctacaaccatattcttagggctgataa tctatttgcacattttagttatctgccaaggctgcttggctttgctatcagtatgaatgaatggcagcacgcggaaaaaattgtacttaaagcttacgaatccatcaacctgttggc atcggtgattacttcaggtaaggaagtgaatataaatggttgcaaaactcgagcagtaaatgatctttggcgctgtataaaaggcacattaagctggctatttgttgatgcagcg acacgatattacagtcctgacagattatttcttgataaacgttcaaagaaagaagagtgccttgcggatacattttttaatcatatttcacaaagtctgacgaatctaaaggatttac tggatcttcgctttgattcagcagatttttatttaaaagcgccattggtagctcgagctgatttagcaaaggaaccttataaacagatcgtaaagagtcagtcggcagaaaaactt gttaatcagcgtgatagtaaaaaagaagttaaaatactgaaattaatgagcgactcatcgcttattgatattgacgttattaagctatttttgaaatcaaccaagaatacccgactg gaaaaagtggctaaaggaaatcgtaagaacgaaagttacctaccttacattttccctacacgtcctttaacacccgctgaaatatcagaactggcccccgaatgtgttggatta ccctccacatccgacaaaaaaccagatgagagaccgtccaccatttgggcaaaatatactcaagcattacgcggagtatggatcaaaccgacgttgctagcatcggagcag gactcagatgaagcgacaaaaaaagctcggcctaagaaattcattcatattggcacagacaggaaacataaagttgtcgttgcgctaaccagcattaaaacagaggaggac gactgggctaaaatggcctgcaataaatctaacttgtcccgttcaaggtaccagcggatttctgaactggttaatgcaacattgaaactatctcctaaacctgattatgttttattcc ctgagctttcaatcccgttacgctgggttaacagtattgctgatcgtttgagttcggcgggtatcagtctaattgcgggaacagaataccgccacttagacgataatcaactgaa gagtgaggccgtacttgtcctttcagataacagactcggctatccagcgagtgtcaaaatatggcaacccaagctggaacccgccgtaggtgaagatgaggcattattttcaa tttatggtaagtcttgggattcgacacttaatgttaaacaacgtaagccggtatatattcatcacggcgtcaattttggcgttatgatttgctctgaactccagaatagtaaagcgag gatccgttttcagggcgcactcgatgcattaatggtattgagctggaataaagatctagatacgtttgcatcgttgattgaatcagcagcgctggatattcatgcctatactatttta gtgaataaccgaaaatacggcgatagtcgcgtacgttccccggcaaaagaaccctttatgcgtgatattgctcgtgtgaagggcggtgataatgactttgtggtcgctgcaac gctggatatcgactcgttaagggcatttcagagcagggcaaaacgctggcctaaaggcggcgataaattcaaaccgttacctgaaggattccagttggcaaagaaccgcaa aaagctaccgccaaaataagaaactgattttcgctattaataatcagggtatttttgcgtgagatgttggtaaacatgatgtagcccttgccactcatgaccaatcgcagtatcttt ctcccgcgcctgcaaaatcaggcgtcgggattagcctcctgaagaaatcttatcggcgacacatgacgcgccagcgtctttttttgtgttgttcgcacggttacatc (SEQ ID NO: 388) 31 RT- ttttcaaaggagtttcgctttccaaatatacaagaaatcattatttctaaaggtatctataagtggatgattcgttttattggaacagttgcattctcgttaattaaagcggctgcttccg nitrilase accggcgaatggtcattcagaagctgagaatgtggttattttttaaagaggaattggcatgattattagccttgaagagcttggccttgcctaccgaaaagcaaaagtcgatctg (UG5) tactattcatcccatgtttcgctggaagcaattgcgtcttacgaagagtccctacatacgaatctgacggttctgcaggaaaaaatacaaggtgacgacgaatcatgggtggaa gagaatgagttcactggcaactggtttctggccacaaaatctgtagacatgtcttgctgggaacagcagcgagaaccgcaagctaacggtctcatattttcctcacctgctgaa aagtgggcatatgcttgcaacccaatggctgataaaaacgaacaaaaaaaaatcaaagccgagtttcgagtaatggctcaatgcagtctggattttcatgttctctcgactcttt ggatgttaaaagtcgggcatctttttgatgccaaattatctacctgtgcttacggtaaccgcctgcgccgtactctagatggaaaagacatcaatgcactttcaattggttcttttca accttacctcagaccttttcgtgattggcgtgacaatggcattaacgccatgcggagcgcgctaagtgaaagcaaaaaaatcgtggcactcactgctgatgttagttctttctat cacgaactgaatcccgggtttatgcttgatccaaccttcgtcaaagatattttggagttggaactcactgctgaacaaagcaagcttaatcgattattcattaatgcgttaaaagca tgggcaattgagactccgttgaagaaagggttaccagtaggtctccctgcttcagctgttgttgccaacgtagccctgatcgagctggatcgcgttattgagcagcaagtcgc acctatatattacggacggtatgtagatgacatcattctggtcatggaaaatggtgcgaatttccgttccatggcagagctatggcaatggttgttcgcccgttcttccggcaaac tggactgggtaaagggcgaggaaaacaaacagatcagttttcaaccaaactacctgcatgacagccagattcgttttgcaaatgcgaagaataaagtgtttatccttgcgggt gactccggaaaaaccttagtggaagctattgctcatcagatttatgaacgagccagcgagtggcgagccatgcctcggttaccgcattcctcgaacaatgttggaactgattt gcttgctgcaactcaaagtaatggcgaagtcgctgacaatttgcgtaaagcagatgcactgactatgcgtagggctggttttgccatcaaactacgcgactttgaagcctatga gcgtgacctgcaaccgggcacatggaaaggccatcgccaggcattttttcgggcatttattgatcatgttgtggtgctgccacaattctttgatttatcagtctacctaccccgag tgatccgactggccacggcctgtgaggactttgtcgaactgcgcaaacttatcttagcgctcgagaatatttgcgatgaagttcgagaaaattgcctccttaccatcaaggcgt gtcctgatgatcacctcccttttgaagcagagattattggcaaatggagggctcagctttttagcagtgtgcttgaagctatcgttgcggcatttcctccgcgtatttccaaggtgg gtaagcaaacctggaatgaccatttaaaaaactggcacgcccggtgtgggctagacattcaatattcgggtcgtgatttttcattaaagggctaccaagaacagcaggcgag attattctctttcgacttagcgcacatgccattccgctttattggtctaccaaaagagatgattgctcaacggggcatacccgctccgaaaacagtagcccactgtgcggaagc agcagaattactgcctgatattgtcgttttgggtaatcaggttgtagcaaaatggtgcaaatttaaaatcattccacatggactgctatttgccacccggcctttcagcctgccgg aactctttatcctaaacaatgaggcttatacagcttcagctcagcaagaaatgcgagctattattttcgctgttcgcggttttgtactcggtaataaaacaccttgtgtcgataaaca aggcatattgcaaatccctgacggccaatctgctggaaaatatggggttgccatatctagctggaaaacgtccatgtcaagctggactgcggcggtcatgcgttcagccgat ccggatgcaaaccgttacgctcgcttatgtcgcttgcttgatggtgtgatagcccaaccacataacagtcgttacttaattctgccggagctctcactccctgcgcactggtttatt agaattgcccgtaagttacaaggtcgcgggatttcacttgtcaccggcattgaatatttacatgccagtaaagcaagagtacgcaatcaggtatgggcttccttgtctcatgatg gattgggttttccttcactaatgatttaccgtcaggacaaacaacgcccagcactgcatgaagagcaggaattacaacgaatagcagggctagaaatgaaaccagaaaaga aatggacaacgcctcccatcattcaacacggtgattttcgtttttccttgttgatttgtagtgagctgaccaatattagttatcgcgcagcgctgcgtggcaacgttgacgcgctgt ttgtgccagaatggaatcaggatactgaaactttcaatgccttggtcgagtctgctgcgctagatatccatgcttacatcatccaatgcaatgaccgccagtatggcgatagcc gcatccgaggccctttcaaagatagctggaagcgtgatgtattgcgagtcaaaggtggtattacagattattgtgtaataggcgaaattgacgtacattctttacgacaatttcaa agtagctatcgttctcctggtaaaccctttaagccggttccggatggatttgagatagagcactctcgaaaaatgttgccagaagcataagtaaaattggaaaaaaatatcgatg caggttattaaagatgaggcaacatgccatagtcaatcataacctgcagatgtaatttgaaactgcatgttgagaattacggatttatttgtgtattcaccctcgcataaaaatgaa gtagctttcatattccacactactgataccccctgaaaatatataactaaaaaaaacaattttaaaacatgaggtaggaatagcaatctgactgtgatgtagttatttttttgatgaag ataattaggtgctcgttgttc (SEQ ID NO: 389) 32 TOPRIM- atgccccgtatcaacgttgagaaactgctgcttgagatcgaaatcgacaaggtggcagagcgattgggtatggcgcttaggagcgaatcagctacgcgcaagctcacgctg RT- tgcccgttccatgacgataaaactccttcccttctaattgatacgagcagagataattctggacagcattaccactgctttgcctgcggtgaacatggagatgcaatcgatctgg nitrilase tgaagggagttcttcatatcgatttcaaaggtgcattagagtggctgtcaccaaactctactaccacccctgtaaatagggcgagaaaacagaaggctatgcagcctgagca (UG10) gccagaaggctcagggcttgcgcaagcttataagttatacctgttaagcaatgacaagcaacgactagctaactgggtgactgatcgcaagcttgatatttttttgatggaagat gcaggattcatatacgcacacaaaaactcactatctaaacaggtttcctcaagaaaagattttggaacgaagcgtgaattagcagcaacattggaagaagcgaacctaatac gcaaaatccttccaagctcggggttccaaaactactatttaaatctacagtcaatccacgacaacaactatatagactttttttcaggggatcgaatcgtattcccgataagagac gatcagaaaaaactactaggccttgccgcccgggcggtagatgagcaaccagcaaaatacctattctcaaaaaactttccaaaatccaaagctatttttagaatagagcaagc tacaaccactctacgagcattggctaagcgaggcgaaacagatctacgcttatatatctgcgaaggattttttgacgctctaagattggaaagcttgggatttcctgcagtagca gtaatgggaacatcaattagcaaagaacaaattaagattatgaaagggcttagcgacacgctcccttcaaagctagcctctttgacaatctgtatttgttttgatcgcgatgaagc gggattaagaggagcatccgaggctgtactaaaattcttaggcgctaatctcgacgtggtatttgtatggcctactactgctcagcttacaagcgcagaccattcaaacacaag cataaaagatcctgacgaatatttgagaaatttgtccgcgccgcaggccaagtcacttatcgatgtttccacctatggacctgtagtagcagtactagcaaatcagtttggtgtg catgccgacgaactgcttgaaaatctaaagtggaacagtgccagtcgctctcgaaaatacaggtcatttgagaaaactcgtgctgaactcaggaaagttgtagccaaccccc atctccaatcaagcgacctttttttaaatggccgaacagatcttgactcggcggctcaaatagaatggattgattttttaagtgtcgacattgcgactgaagccgctccatcggaa tgttatcttaccaactcaggcaccagactaaaccacgcccgactgctcgcctatatgggctcacgaagaggagagttgccctgcgaagaatcaaaatgggagcggttagat attgcggcaagtgcattcaatgtgttgctcgctgaacgattggctaatgaaatacatggacccatcgacccgttcgaggccgtatgggtgccgaggtccttcggcgcagaag agccgagattaaaggtgatgcctcaacctgaggatttaatagcgcatcagtacttactaaatgagctacttacagaacgctgggatgcttccgctctcggtgttacagcattca gccagtgcataccagctgtccgctattaccgcgaagaaagaaaaactgttacgacaggaatatctaccccctcagataacacccaacctattatacttgaacagacgctaagt ttcgcctatcaaattgatatggaggttattgagggcaggcagccagcttcagatcagggaatgtttcgtccgttcctagactgctggcgagactttatgcagtcccttaaaaatc aagccaaatctataaattacgtgcatgttatccgcctcgatgtcagtcgatattacgaccgcatccgcagacacgtcgtaagagacagcattcaaccatttatacaacaagctct ggaaactgtcgctgataatgcaccggcgtttgctgaactgatgaaaatacaagcatctgcggatgaagcagcggacaaatccgcaataattgtcgagcaattatgcgacatg ctctttggctacccataccttagccctgataacgggagaattaataaatcagatcccttacgcggtattcctcaaggcccagtaatctcagcatggttaggctcagtggctttgttt ccagtagatctcgcggcactggaaatgatgaacaaatacaatgtagacggggaaactcatctagggtatgcaaggtatgtagatgacatagttttactagctagcagctccgt acttcttgaggaactgagagagctagttgatcaaaaaactcggagcttagacctggcgttggtcgcgaaagctgacgctattccgccaatgtctgctgaggaatttgcagatta tgcaaatcaagggcgagctttagaagcatctggtccagcgtgggaaccaccgttggctggcgatggtgaagcggggtgggagttttggtcaggcactcccccctcagata gacaatctgccctgcaactgctatcaaattgggagatatacaaaagcccaatagaaataatcttgcaaacagtgaaaacgtccttcctagctatggatttacgttctagcgagct tgcaaagggagcaaggctaatatggtacgttgtagcatccgacctcctctcagctgacattgatccaagcgatgcggcagatttagcgtgggaaatttatgatcgctattggaa ggaatgtactgaggagtgtgggtggcagttaaacccggatagtttcggatgggaggcaccgaatctgttcgcacttgagggactggaaaagcttatagatcataaaaatagc ctccaatcgggtttaactgctttagaaaataccgttcggcacaaacgcatctctttcctagctagaaccgtgcttggggagcggttcaaactgcatgctcttgaaagcagctcta cgcttaagcaccagatagataaaagactagatctcctcgaatggaaagcgtcaaaatcgtgcggaatgcccgttcgtagaactaaatcctacgcagagcgatcaatgtatatt cgctcctggcaacccttcaactggttccatgccgcagtagaagatttcatgctcgcggatcagtccagcggatccgacccattgagttcatatgtcactcagttccaatctatag aaaagagcatcagacctaatcacgccgcttcttatgagttcttccggtatttactgccatccgatggcagcgatagcgatcttgagtttttctcaaaaacagagaatcgatactcc ggcttagcaattcagattttggttgcattagtccctcgggaaagcataatacagattctctcaaatagagcgcgcttactttgtcctctagaagctggtaaaaaactattagtcatg ccccctcttcctggcgtcaatcagcaacgtatagttgcttgccagatcgatagctcctcagaaaacaaaatcaaaaaaatcagctcgtttgagtgctatgaaatagattcaacta aaaccaataccacatctctagacttttttggtgcaaactctgcgggcgtagttgtgcttacacccacatggaacaccgaagcccaacctcaatccgccatacttcgatcaaact cagaagtcccgaaaaatcttttgttggaggtatttgagaaaccgtcaaccggtttcccttccgctattcagggattgaagcacgtagcctcactatatagagccattgtggtaata atggctgaatacgagaggcaaaatgatggtttagagcttatacccgcttggccataccttgccacagatatgacctctgggaactgctacctaatttgtgagggcgtaacgaa aggagaagtaggaaaccgagcatttgtaagagacggtgggcgggccctaagaaccattgagataccgatatacgaagcccagttgtggcgagccggggttgcgctaagc gattacataggcctgcacgacgatattgctaaatttagctcctccgaatccgaaatacctttggatgcgacaacgcttgccgccccgtcacagtacgtgctacgaagccaactt cgtaaactgaggggtgcctttgctaactcacaaatagggcggcgcgttatgcccccaagttttcttccggcaagtgttgaacgtgcgcttgagttattggagcattttccggaa gactcagatagtacaaagatgcagctaatgcatctgcttgccactgaaaccgaaactgcgggaatgcgcgtccgctatgagaaaaatattgaggtcacagagctcacggtat ttctacgtgcggtcgccgacagggttctaacgaaactacccttaagcataggtgaggtcattgctgcaccgactacagcagtcagtggcctgaggagagacctgagtgggg tcttgacccttgccagaagcatatggtcgatggatgaagaagaaaaactctctccaatttttgcgtggaagatttttcgagctggaattgtaggtattggtatcgctgttgctctac gggggattatagcttcactaagaagccacggggggtttgcacgctttgagggatttgattttccagcggaatgggagcttccccctgccacagcagttttatccgaaccggcg acaacagataaaaccactgatgaaaatgtaagcctcctcgaccatttccgggtactcgtatcacatctcggacaccgaatgaggttggacgacaacggcgagccacaaatc ccagaagaaatcagcacagaaataagaaaatacgctacagcattagcgggcctcactactaaagactcaactgcggtggacgcaagcgactggcctttctttgatatcagc gaaaaagtttttgataccctaaatatagaattattagagaacgtcagcaatctaatcaaaaacttagattccgcgcttggtctccaggtaattttggttacgcaacaatcatacggc ttcaatgctcaaaccaaacgcttcactgactcaagaggacttgcatgggatataaagccatggatgatctcgcaatacccattgcgtgctcgccacgttgaggagtgttttgatc aagaccgtagaatcgtacgtgtatggagcgagatttacgaaaaaaacagtcaacgcctgctttctatatcagtactaggcgagcctttcgcatcaattgcactatgtaaggactt ggaatcgccttatgccgagactaaaaatgtagacagcaagcacaacactgtattaggtcctagcgagcagggttctgaaagcgcacccatagatatttcaccgattcttgaaa ctgctgagcctgaggccgagactgccttagcagacacacaattaataccaaccccaaaccaaactagcactgaagacagctttgataaaatagatactgagcgtaatacaac acacaataaaaaactaccgcttaccgacgcaacactcaacgcccgaaagaattcatttagaaatagccagctaacagcctggagcgataggaagtccaataaaaaccctgc ccatgttcgggtagctctatttcagtgggaccaagagctgagctatgcacaccctatggtggaggccaccccacaaaaatggcctttcagttccgtctgtaaaccagcagtttt aaaagaacttaaacgcctatataactctccctatcaagcccttttgaatgcaactgaatctgccggtcaacaccacctatggaaaaacgaaaatatttccctacccagctggggt gagcttcgtcgtcggcgattattgctcaacgcagtgaacgcatgccagtcatttggcgtggacttattgatacttcctgaatactcagtccgtgcagaaactgttaagtggttaaa agaagagtgcttacccggaaagacggtagcggttttagcaggaacatttttagctttcgactccggtccgccccccctaaaacaaagcgcgagcctcaacctcttgtggccc gtaccgcgtgatattgccgaatgcctcaaaccgcttgcacccaaaacaaatgaagatgctatgtccttgagtgacaagattgacaagggcattgtattgcaatggggcagatc aaagaaataccgatcagtagctctaaatgagttcatccggcctggaactgatcctctcacccccctgttcatgcccggaaaaataatagatgaattgagacgtgcaaattggg atctggacgctgatggtgttgttaagttgctagccaacacagagttgccacttgcgaatttcatggagctgatatgctctgagattttcctgttcacgagcccaaccaacattcca gagatggcaagagattatgtttcaatgtgtgcaagatttggcttcggcgctgcagaagctcaagtctgggcggatctcaaactactatctaaatggctttcggtctgttccaagc ctggtggtgccgactctagacgatcaattttgatcgtacctgccgcgaccactcgtactgctgattattggatagcaggccaagctggcttgcttgccgccggcactacaactg tatttatcaatggcgtaggatctgggcttaagggtggcagttgttttattggcagagagagctggaaaacaggggctggttctcacggttacattgagaccattacgccatacc atggctggtcaaaaggaatttactataatagcaaacatgacccactgagcgaaattgatcaagcattggtgatcgcagatatcgatcctcataacatgcttgaaggcaaaccta gacctcagatgctgccagttcccttacagctagtggcatacctaccaatcgttgaaactgtcgacgaaacaagcttggaccaaactctctgtgacgcagttcaggttgaccata acaatattgcaagaattaatcagggtcagcgattgggtggacgacttaaaagtcgaaatgagttctggcaacttatcacgcaaagtataaataatgatgtcgacaacgactttat cattaacttcagtaaatactttactgatgggaaagcgattcttgagcgagcaaactctttcttcaacaatggacaccaacagcctttttcatcggtagttaagctagacctgctctg ctctccggcactttacgactggctagaggccgatatgacgttgcgggagggtgaggcgttacccaacatctcagtcccttcatggaccaaataa (SEQ ID NO: 390) 32 TOPRIM- atggatcggtttgacattggtgaggtacttgcgaagtcgcctttagatgaagtagtacggcgcctcggcatcgagaccgagaggcggggaaaccaactcagtgcaatctgc RT- ccatttcaccaagacactcgaccgtcgctgcgtttttttccagcggacagcagatctcccgagcattttcattgttttgcgtgtggcgcacacggccatgcgatcgacttagttaa nitrilase gcaagtccaaagtgtagatttcttgccggcggtgcaatggctttcgcagagctttggcatcaaagacatccggcgacagccaaagaatcagccagatcgcaaaggcgccat (UG10) cgaaggcgcacaggcattcgcgcttcggatatttgatgagcaccacgatacacaacgattccggacttggtgcgaagagcgagccttcgaggctgatttcctgtaccgcca gggggtgcgctgtgtgcctcactcggttctcgtgcaagagttggcgtcgagaagcacaggcgagcgtgttgagctgatcgatggcctgcttgctctcggcctgattaagcgc ttgcaacaagcatcccattcggatcagtacaagcttagctttccagatcaattccaattgcagttccaagactacttccacgacgggcgtgttttgatcccgatctatggtggtgc cgcaaagcgaccggaactggttggcttcgcgggacgggcactgctggctgtgccgccagaaggagtccccaaatacttgttaagcccagggtttcaaaaagccaaatacc tgttcaatgcgccgagtgccttttcgtcagcaacgggggaactgagggacggcgacactgcaacgttatatctcgtggagggcttcctagatgccctacgcctgcaggcgtt aggcttgaacgcagtggcgcttatgggcacctcactcagcaatgggcagttagagctgctgaagcacttcgttgatggcctgccacagggcaaggctgagtttgtacttagc atcttcctcgacaacgataaagctgggtttgcagggacggatcggttggtgcgacgcctgctgggtttgtccggagttgatctgcgctggattggccttgatggctataccaac cgtccgcttggcaaggatccggacacttgtctaaaagtgctttcgagccgagtggaggcaacggactggttgcaggacttcaatcggccggccgaggcagccttgctggta tccgaattgggagacattgatgcctccgaactgccgaacgaacgctgggctgaactgaattccagtgctcgggagcgggcggtgtacaagactgcgacgactattcgaca ggttcgtggctcgcggcctttacagggcgtgattcagcgactgaaggctacagaagagagttgggctaccgaactttgtgaattgctgggtaccgttgaaggaacacagcg gaatcggagttccgtgttgtttctccagggcttggaagagcgcctctctcatgcccgaaatttggcgtatcacggatcgcgccgtggcgagctcccatgcgatgaagaatctt ggctgactttggatttgagtgcgcgcctgtttgatcgcattgcccaacaacgattggcagagcgtggctggatccaagccgccccatatgatgcagtccacctgccgcgcaa gcttacggctaatactacggtactggatgacccgcgtcgcaaggttatgccacacccggccgatttgcacttgcaacagttgctgctgaatgaactgctgacgcagcggcac gacttgctgagtgtcgaaggcaagaccttctcggaatggattcctgctgttcgctggttttctgccacccgcaaagtcgaagtgactgggccgtttgacgacctccccgctgc agaaggggaggagaccacattgagttttggctaccaagtagatatggatgtgctggagggcagcaagaccccgtcagaccaaggcatgttcaggccctacgggcagtgtt ggcgcgacttcatgagcagtttgagcaggcagtgccacgctatcggcggtcgagtgcatgtgcttcgactggacgcccagcgctactacgactccattcagcgttatgtggt acgcgatgcactactggactcgatcaaaggggctttgacgggaaccggggcgggcatcttcggcccactacttggccggagcgaaacagctagcacgcaggaggtcgc agaggctctggtcgacaaggtttgtaacttcctctttggccaccaataccggcccccaaatacaagagctgtcggctctagtctggatgcgattgggattccgcagggtccgg ttctatctgcatatattggtaccatcgccttgttcccggtggatgctgcggcgcgcaggttcatgcgtcgcaacgtccgaccggggcaggatggtatgaacctgccccgcgtg ggctatgcccgttatgtggacgacatcgtgctgttcgcagacagcgaagcgctgctggccgagttacaagaggtcctccagaccgagtcagctaagttgtctatctcactgat aaacaagggcgaacgcattagatccggcacgccagagcaggtgatgcaccagctcaatgagggacgcagtctggcagcttcggtgccggcttgggaaccaccattcgtt ggcgatggtgagtctggatggggtctcggcggcgatctgccagacgtagaccggcaatgcgctttgaaaatgctgcgacatcccgcactgatggacgagccgaaattgat tcaggagcaggtcaggcaagccatgcaggctcctgacctccgtccaaacgatctgggcctgtgcgcccgatggttgtggtggcaggtggccactgaactgtccaacgaat ctccgcaaaacgacccaagctcggcttggagtcgctactggcagttgtggcgacatgtttgcgaggggcacgactgggccggggagttcgaacgaaggggctacgcac agctatacgctgtggaaggcctggacaaattactcgattccaacccttggatggagaatgaacaaacccatagcgaagtaccgcagaaacgggcaattcgtattgggcttgc gaagctggtcatctcggcggggttcttctcggaggtgcaaccttctgagaataacgtgcatgtccagcggcgcgcgcgtcttgtggccggtaaggcgcggcagctttccgg cgggctgtcgaccactctactaagtcagccacaagacacgcagccggttacgacgatcgagtggttgtgcatggctgctgaattggtacgtgcggcccctgtcgatattgct ggcgctgaaggtacgcccccgattctagcgcccatcaagaatcgggttgctcttggcaccgtggatgctgtggcatcgcaggtctgcgaagtgctacggcttgcggatact caggatgggaagcttggtgacgtattacccaacccagtgcaggatgacgtagcgcggctagcacttggtttggtgatagataacgcgacccccaatcagcggctggctgtt ctgaccaagttcccgggactgctgagtatccgcagtaacggtgacgagctttccttggttcagcgtttacctatcacggagataacgtcactgtgggccttgggtgagccgca aaacggggctcgatatctctaccggttctccttgcccccttcgccccttgcgtctcgagacctggcctgcgttgaacttgcgagcgatggcatgccagaggccaggttggag gcattgagcttcgaatctacgtcgctcggcccccaatcgtgccctcaccaattggtaagagagaagagcattgaaagtgtttcatgggcgaagtttgacttggattcatcgccc aatttgagtcggactgaactggcggttcgcctgtacgtcgcgctagtggccatgcagcggaaggacacaagcgatgctgatctaatgtacgttccttttgcaccacagctattc cgatcaggcgatgccacgcagccaacgctgcacttggttgcagaacctgtgaagcgccatacgctaggtgtgagcgcctggtaccgggattgcgatgggcgggtgcgta cggttagtgttccacacgtcggtgctgacctatggcgtgcgggctgggcggtggccgacgcattgggcatggcggtagacatgtcaggagaaaccggtctgcgcgatga gcaactgtcggacaagacgccgatctcggttgagcactatctactccgtcagcagttgcgcaagctgcagggtgtttacttgtctgaggcccagacattgcgcaaagatgaa cagaccggcctgccgcgcacagtaatgcgggcgctgcagcttctgggcgaattcgatggtcgtgcggaacctgaccagcaagtgcgacagttactggttatggaggcgg aaacacgggcgatggccttgcgtctacagcagcaggggggcgagagtttgcacgcgctgttgcatcaggtgtttccagccgtgctgaacaaactgcccttgtgggccatcg attgcttggccctgcctaaccagcccgccgaacaccaaccgctgcggccagatttggcactcatgctgtcgttgtgcacggccatggagggttattggggccaggggggg gcagcgcatcaccatacaaccactccggctctgcgtgcggcgctagctttggcaacagcgggagcagggttgcgtgggagcgttgccgcgctatggggtctgacacagg cgcgtggtgccctgcggatgcccgagcgccttgacctgccagccgcttggccgttgcctgatatggtgcgcacggatccgcagtcggactacaaagccatgcgccaatgg ctcatcgaaggcgattggccagcgctgtgccgcaccagcccttggcactggatgctcgcgctgaccggtctgttgggtgccaacttcccacaggcttttgaactgcctcagtt gcagcaggtctttaccgcgttggcagcttggcagagccaactaagcgctgaggacggcgcctccgtatggccttatgatgggctgccagtactggatccgcagcagtggg cgacatttctcgacgcattgcctctggcgatcaggcaaatcgacgatttgcttggcatgcgggtggccccctgtactgccccacggtatcgccgcaacccccataccggcga gttcaccgatgccagcaatcaagattggctgcttggcaagtcgcagttcacaggactaggtgctgttgaccgcattgcacggcgtaccaccggcggacgcattctaaacgtc tggacagagacccggagaaaggctgacgatgagctactggcagtgcatacgctggatcgaaagctgggggcctggttggaacgcgccgatcaccccgagacagcgta cgacggcacgggcgctcctgtggccatgccctcggagaagcctgctggcgaaatcgtcgagcaggtattggctacctttgtgccggatgtcgctgagtctgcctcagacct agcccaaagctctactgacgaactgacggagaagcctactggcaaaatcggtgagcagatattggctccctctgtgccggatgtcgccgagcctgccccagaccttgccc aaagcgctgctgacgaaccgacggagaggcctgctggcgaaatcgtcgagcaggtaatggctccctctgtggcggatgtctccgagtctgccccagatcttgcccaaagc tctactgaaaaaccgacgatgcagcctgtggctgagatggacggcggagccaatattgagtacagcaaggatgttgatcgcttggcggagcacctggacatttcacagaag cagtcccgaaagagtcgtgctgatcacaagaattcgaaggcccatttccgcgttgcattgttccaatggcaggtcgaggacacctatacacatcctctgagcgaagtcggttt gcgaggcctgcccattggtgaaggggctaaggccgaactgcgtggaatggtcgctgccaatggtgacctctcggtcgctgacaaggccgccaaacggggtgaggagca ccaatggaccaacaacgtgaaggtcatgtcctggcatgagcacagacgccggacattgatacgtcaggcattgaatgcttgcaaggatcttggcgtgcaattgcttgtgttgc cggaggtctcggttcggagagacacggttgagtggctcgaaggcgtactgaaagactttgaagggttggcggtactggcgggtacctatcgccacttttccaccagagcgg aagaccgcgaccaccttcgcgcaccgctgacgttgctctggcggcccgagaccgaaatggccaaggcgcttgggcttgggaatgagaacacgacattcaagttcgaacg cggcaagaagtatcgtgcggtggctgctaatgagttgttccggcccgatttgagtcagctctctccgctctacacagaagtgaagctgatggaggaggtcaagagggaact caaccgtcgaggacgaagcatgcttgggccagatcaactgcctgagctggctcatgcactggtgcatttgtcgccacccctgcgctattgtatggaactgatttgctcggagc tctttctgctgaccagtccggccaattttgaaccactgaggaaagaggtgaacatgctcttgcagcggttcccttcgtactctgaggatacgaagaaattgattcgggatgacat cgaggcggtcggtgagctgctgactgttgcccagagaaaccgggagcggcgttcggtgcttctggtccctgcatttacgagccgcagtaacgactattggcacgcagggc aggccagtgtgttggcttccggcacggccactgtgttctgtaacgctgcccacaagaacagtgctggtgggagctgcttcattggcattaattcagtgagtcgctcgtcggag accgcagggattgttaactctttgacgccttatcacggctggcaaaagggcatcctgcaggcgaactctgaaggggcgctttcgaagcatgatcaggcgcttgtggtcgtag atattgatccagtacatgtggtgagtggtaaaccgaggccacagctgttaccagagcccatgtccttggtggcctatctgccagtgatcgaactgatggacaaggaccaaac cgctgatggtgtagtgcgtgcattggaggcggaacttgaggatccaggcatggggggtaaagccagggagctgcttgcggcaacgggcttccatgcgcatgacaagtttt acagggcttaccagacgcttctcaatgaaaaagggtctgacatcagcaaagcgcacggcgcaaaggcgttggatgattttgtgaagttcttcgcagacccggatgcgttgc gcaagcgtttcttagcttggcaagatgaacgacatcagcagccgagtctcgtgtccggaagcctgcagttggagccggcatggctcgatttcttggttgcggatatgacatgc atcgatcagatggccaaagtgagggtgccgccatggaaggagaacttgggaataggtgggccttctctagcgagtgactcgtga (SEQ ID NO: 391) 33 RT tctccacttcttcaaacatccgtatttatccataaccgcactgttttataaaagattttttgtttttactgttcgtattagtccataactttccagtagaatccagtactaaatgtgtatagg (UG7) attatgtatatgttcctgttcgattttggaattctatacacatgcccctaaatgatatgcagattcgccgtgctaaacctgaagctaaagcctatacacttggggatgggcaagggt tgtctttacttgtagagccaaatggaagtaaaagctggcgatttcgttatcgctatgccggtaaacccaaaatgatctcgcttggtgtttacccaacgatcactcttgctgatgctc gttcccgtcgtgatgaagctcgaaaacttgtggcagaaggaaagaaccctagtgaggttcgaaaagagcaaaagctggctctgcaaacagagtcagagaacgccttcgaa aagatagccagagagtggcatcaacagaagtctaccaaatggtcggcgggatatgcatcagacatcatggaagcgtttaagaacgacatttttccttatgtgggaacaaggc cagtgggagagattaaaccgctagaactgcttaatgtgctgcgtaaaatcgaaaagcgcggtgcattagaaaaaatgcgcaaagttcggcagcgatgctcagaagttttccg ctatgccattgctactggaagggctgagtttaaccctgctgcggatctttcaagcgccctcaatgtacaccaatcaaatcatttcccgttcttaaaggctaatgagatacctgattt tcttcgcgccttaaacggatataccggaagtcggcttgtcctgattgccacgaaattgctcatgattacaggtgttagaaccatcgaattacgtgcggcattatggtcagaatttg atttagataacgctatttgggaaattcctgctgaaaggatgaaaatgcgcagatcacaccttgtgcctttgtcgactcaagcgttagatttgctaaatgaactcaagatgatgaca gggaagtatagttatgtttttccggggcggaacgatccgaacaagcctatgagtgaggcgagtattaaccaagttatcaagcgtattggttatggtggaaaacttactggtcat ggatttcgacattccttatctactatcctccacgaaaaaggatatgattcggcttggatagaaatacagcttgctcatatagataagaataatattagaggtacgtataatcatgct caatatattgataaacgccgtgatatgatgcagtggtattcagattatatttttattaaggagaatgtgaatgagtaacgagtttgatagtagtaaactagaaaattgctttgagcttg cattggaaaatattataaagcacggcgatacagatattttcccttacccatttgaaagtcggttatttgaagatgataaggagaaagtaaaaactgcattaatgcaaacatttaatg actttgaaaataaaaggatcgagattccaccaaacataattaatagcttttcaagtattggttattatggttacaggtgggcgacccaaattgatccattctggaatgctttttttcttg ggttagttttaaaaatcgctgatgatattgaaaggaatagatctactaaaacgcaggtttattcatatcgctttaaaccaaaccttgctgatggttctctttttgataaagagatctctt ggagaaaatatcaagaagacagtatctctgaatgttctaacgatgaaataaagtatgtacttacatgcgatatagcagatttctatccgcgtatttatcaccaccgtttagaaaatg cgttagatagagtcgaccccaataaagattactctgggaaaatcaagaaattactacagacatttagtgaaacaaaatcatatggagtaccagttggatgtcctgcctctagaat attagcagaactagctctagattctattgataaattattgtctatgaatagaatcaactataagcgttatgtcgacgactttgttattttttgtaactctagagaggatgctcataagatt ttaactttgcttagtaaaaaactgatggaaaatgaagggctaactttacagaaacaaaaaaccaatattgttactaaagaagagttcctttcagtaactaaagctaagttgcatgg taatgatgaagatgaagaatctcctatgaaggctaaatttatgagtcttcctataagattcgatccttactcagcaaatgcgatagaggaatatgaagagataaaggaatctttaa aagattttgacttgttagctatgctgagtagtgagttacaaaaatcaaaaattaaccaatcttttagcaagcatttgataaaggcattctcagcaacatcagatgaaataataagta gtgctttcaaagtaatgtttaataacttgcatgagttatatccaatatttacaactataattcaagtagctaactccaactggcaaaaattaagcacagaaaccaaagatattattctt gataaaataactgcactaattaaacaagattcatatattttgagtactgagctcaacttagcctatgtagcccgaatgctctcaaaagaaaattcagaaaaatccaccctaatcctt agtgaaatatacaataacaatccagaaagcatcttagtcaagaacatagttacacagtcaatggcaaaaattaattcttacgcatggctttctgatatcaaaaaaaatttctctgca atgcatccgttgcagagaagactattgatcgtttccagttacatcttaggtgatgaaggacggcactggagagagcataataagaaaacattcaactttgtagaggtgatttaca gggattgggcaagtaaaaggcataccgcaagaaatcttgaggatgcgctatgatatctgaattaacgttttctcgaaaattcacttcattttggaatcaattgcttccaaatgctaa taatttcatacgcatcattaacggcagtctcatcgaggacgtttatcctcctctagatgactgcgctaataggtcaaataacgtctttgttaatgagtgcgcatttaatttatataggg caatacagaatgattcgttagacagaaatattctttcagcacatgatatcttccataatgctgattttcaggttgtttttgaaaaaacaaaagaatatctacagcggttcgcttacggt tctaacttcaagctacccttaagcatggttgagtacaatgccataagggaaatagcaagaaacattttgtctcgatatggaatggaaaaccaaattgaagtgtctccacaattcg atggatgcggagtaataaataattcatatggcgatatttattattcaaatgttcttgtggaaataaaatcaggagataggaagtttagtgtttacgatcttagacaggtgctaatatat ttcactttaaacttttactcaaaaaacaaaagaaacatcaagagatttgagcttttcaatcctcggatgggtatcacttatagtgataccattgtcaaccttagcaaagagttggcgt ttattcaacctgaagaattgtactttgagataatgaattctattacagaagaaaatttcatagtaactgaaatgcaacgctagatatcatgcagaccgctacaatccattgtagtggt ctatttctaaacgttccttctgacgaataaagccaaaataccaaatagaattaaagaaaattataatatcagccttagcgcgcaatgctccccccgccacgcccgcccgctttgc ggggcggttttaatgcagttgcactgacacgctcaga (SEQ ID NO: 392) 34 RT atgtcatataatgaaaatgactgggataaagaacatctactatcgtttccaataaatgtgaaagcggtgattgcacatatgcgtcaggacatgagagacgattggtttcctgatc (UG9) + ctctatcctataatgacctatttgaaaaagcggatgatctcagagaagtactaatggagttgctgcttgaaggtaatgggcgctatgaagggaatctacgaaatttatgtaacata PolA cccaaaaaagggcttggcataagatattctctagaaactgatttttacgatagatttatttatcaggcaatttgttcatttttaattcctttttttgatccattactttcgcctcgagttttag ggcatcgatataacaaaaaaagaactaaggaaaagtacctttttaagtctaggattgaattatggcaaacttttgaaggtgtaacctatactgcaatcactagtagtaaagctttg atggctacagatgttcttaattattttgaaaatatatctatcgataaagtcaaagaaagctttgagttactaatcccccaggtgaaagcaaatggcgcggaaaaattaaagatcag aaatgcaatcaatacactctgtgaattactttgcaagtgggggttcagtaaatttcacggattaccacaaaatagagatccttcttcattcatagctaatgtcatgcttaattctatcg atcagaaaatggttgttttaggttatgattattatcgttatgtggatgatattagaataatttgcccagatataagtagtgctaggcgttcactaattgagttaattggtgcattaagaa ctattggaatgaacatcaattcaagtaaaacaaaaatacttacatctgattcagataaggatttggtagcagaattttttccgtcacttgatgatagaagtataactatagataatat gtggaagtcacggaatcgaagaattattgccagatctgccaagtatattcatgcaatgattaaggattgtatagagagacaagaaacacaatctagacaatttcgatttgcagtt aaccgcttgataaaacttgttgatgcaaatgtttttgacgtacattcttcattaggtgaagaattgcttgatatgattataagtacctttatcgatcacccagcctctacagatcaatac tgtagattaatttgtgctttgcagccgttagataaacattttgaaaaaataacagatttcctatgtgatcatgattctgcgatacattcgtggcaaaactatcatatctggttgacttta gcctaccataattttaaatcagaccagttaattgagacggcatgtgagcggttgaatttaatttcaaatgatccagaggttgcggctgtatttatatacttgtcttgtattggtgagac ggaaaaactcattccggtaatctctcaatttgatgccagttggcctaacaggcatcaacgaagttttcttcttgcaactaaagatttgcctcaagactcattaaaaaaaatagttga aaaattgacaattaagcttaggaatacggctagaagggctacgccacactattataataatcgcccgttagcagaacggaagtttcctaagattgttgatctatatgacgaggtt accacctatgattgatgctcaacctaaagtatttttatttattaaagattattctgagttaggtgaagataggtattttctattaaatgggaatgtcttctctgaggtttgtgcagagcaa atagtatcacaaacagagctgattgtttgccacgattattggttaatcgctccgtcaatttggatgtctattgggtcactcccatctttgattgtagatgtagatgaattccaaattatt gtatctggaatgaagaaagaaagattgttaagagactgcaaggatatcacgagaaggtcgaatatatatgaaggtaatgaggacttatgttctaggtattttaaaatatttaacc gaactttaccttttgaagaggcggtttttagggactttagccttttactaagggaacattatctttcagttaaaaattatgcatctttaaatgatgagttatatcggtttgaaagtataga gattcctgtttcgagatatgttataaattcaatttgcaggggaattaaaataaatcagggccaacttttaatacataaaaaaaaccttgagcatgatttctacactgcattgaaagaa tactcagcaaaatataatgtacctcttgaagtacctgatgatcaagatgttatagagtatttagagcctatgggatatgattttacgggtgtagacgtggactatatccttaaatttgt ccctatggaaagtaattacgcgaaagatgtattgtcgcttaggaaactatctcgatctagaaacgttcttaattctatacctttaagcacgcgccgtgcttatccgatggttgatact tttgggtctattacttctaggatttatttaagagacccatccttgcagaatcttgcaaaaaagcatcgtaacatactaattccggacgatagaaagcgatttgtatatgttgactatg atcaatttgaggctggaataatggcagctctttcacaagatgaggagctgttatcattatactcggggaaagatatgtatgtgggtttcgctgagaaacttttcaataatataaata tgaggaaggacgcgaagaggttatttctgtcatatgcttatgggatgtcgatgaaatcattgatagatgcagcggtaggatttggtgcgaatagaaaggtggctaaggaaatat tcaaaagctttgtctattttgaaaaatggaaagaagggatatggagtgattttgccagaagtggcaagattgggactgctaatggtaattaccttatacgtgatagagaggggc cattagatggaaaagagaaacgttcatctgtaagtcaagtgattcaaggaacagcttcattaatatttaaggaagccttgatgtcgctggaagctttgaaagctgtagaattatta ttgcctatgcatgatgctgttttggtacaggtgccgttagatttcgaggataaagttatagcagaattgcttgcaaatgttatgtctgaccattttggacaaaagattgtaggtaaag cttctatcgacactttctttgaagattaa (SEQ ID NO: 393) 34 RT atgtcattatctaatttagagaataaaaaagacgatggtctatttcatttcccaattgatgttgatgctgtgcttcttcatttgaaacaggatatgcgagatgattggtttcctgactgt (UG9) + cttcagtatgaagaccttttttataagaaaaacaacattaccgaaaaagtagagggcaagattgtttctggacatggtgtctacgatactgacattcggtttatccacgatatcccc PolA aagagtactttggggttaagatattccctcgaaacagacttttacgatagatttatctatcaagcgatttgtagttttttaatgccttattttgacccattaatatcgaatcgagtttttag tcatagatacaatgaacatcgaaccaaagaaaagtatatttttaaaaatagaattgacttatggcaaaatttcgaaggcatcaccaagctagggatatgtgatgataactatctttt ggtcaccgacttacttaactattttgagcatatttcaattggaaatatccaaaaatcctttatagatttacttcctaaagttaaagcgacaggaaaagtcaaaagccaaattagaag cgccatccacactttatgtactttacttgagaagtggtgttttaataatcttcatggattacctcaaaatagggatgcatcatcatttattgcaaatatagtattaaccgccgtcgataa agctatggttcaaaaaggctatgattattttcgctacgttgatgatataagaattatatgcaaaaatgaatttcacgcaaaaaaagccttgaatattctcatatttgaacttcgaaag cttgggatgaatattaactctaaaaagacaaatatatactcttcgtcatcatcccaaagtgataaagaagaactattccctggtttcgatgaaagaagcattgccattgacaacat gtggaaatcaaggagtaaaaacgtaataatcagatctattccagaattaactaatatgttaatcgaactaattgataaaaatgaaactcaaagtcgcaggtttagattctgtattaa tagaattataaaactagtctcaactggattatttaaaagtggttcaattctatcaaataaagtagttggcgcattgattaaggcattatatgaacaaccggcctcttctgatcaaatat gcaagcttttggttgatttaaaattcacaaaaaaacataaaatcgctttagaggaatttataaccaatgatgagctatgtatttacggatggcaaaaccatcatatttggatattattg tctctaaagaatatttccacaaaaaaaataattgaccgtgccaagtgcatttgcaatatacaacccataccatctgaagcatccgcatgcttcatatttttagccatgaatagtgaa tttaaatacctagataccttagctgacaaattagacaggacatggtcatttcagctgcaacgccattttctccttgcaattagaagctcaaaaaaaacttcatcaccagagcttata aaacatgtactgccagcgatacaaggaaccgtaaggggggttaaaatgaacaaaaaattaaaaaatatttttattcatgcaaacccaaaccctgtctctttttctgaaatctacaa tgagttaagtccttatgattgatcaatacaacattcttttatatctaaaagactttcaagctaaagggaaggatcgctattttctatttaaagaaaacttgctatcggaagtacaagca gatgaattgtttaatttagactcacatttaatcactcatgattatacaatcatttctgagagtatatttaaaaaatgccataaactccctaataaagttgttgacattgtcgattttaagaa atttctattacaagaaaaaatcaccgaaaaaaacaaagattcctttaagataaaagaaatcattaaagacgaattccaagacaaaaatgacttaatagaatactttgagatatttta taagaagaagcctttcaatattgatacctatctcttatttgctcataaaatatcagatggatatgagcgtttactcgctgaatcgttggcattaggagagcaggatagatatttcaac attgaaattccatgctataacgcattgtgcactcatctggctgctggcataaaaatcaacaacgaaaaattaaaagaatataagaacgagataaattatgattattttaaaaaaata aagtcatttagtgaaaccttcaacttcatgtatgaaatgccttctaatgaaagcatcaagcgatatgtcacagagaagggatatagtcttagcgaagagtctttagattatataatt gagtttattccaatgcctgatgattttggcaaaaaagttcgtgagttacaaaaaataaatgcaactagaaatacattcttgagcatgcctcactcaaggaacacaatttacccatc agttgatgtaaatggctccgtaacttcaaggatatatttaaagtcacccaccattcaaaatatatcaaaaaattacagagacatattcattgctgataaaggatgcgcgttgagtta tgttgattatgaccagtttgaagttggcattatggctcactttagcgatgacgagaaattaatcgaaatttattctgatgctgacatatacttaaaattctctgaggatgtatttggaac cgctgagaaaaggaaaattgccaagcggttatttttgtcttttacctatggaatgagtaaagaaaacctcattaaggtcgtcgaagaaaatcaaggcaacattagaaaagcaag agaattcttttcttcatttaaaaagtttgatgaatggagggcgcgtactgtacaacagttttcagacgaaggtagagtcgggacacttcatgggaatttcttgaagataaaaaacg caggagatctctcaaatagagaaaaaagatcgtgcattagtcaagttatacagggcacaggttcattaatttttaaaaaaaccatcatcgaaatatctaaaattaaagatttaaaa ataatcatccccatgcatgatgcacttttgattcagcatcctgatgactttaatgctgatataattattaaaatatttgaagatgtcatgagcgatacattaaaaaatgaaaggcttat cactaaggcttcattgggaacttttatttaa (SEQ ID NO: 394) 34 RT atgaatacattcaaagcagaacaacttctaacatttcctattgatacaaatgcaacattaaagcatctacgacaggacatgaaagatgactggttttatgatgcaattaggtatga (UG9) + agatctactctctaataagactgacttgcaacgtgttttagctgaaaatcttaatatcaaccatggtaattataaatcaggtgacaaagctatttatgatgtgccaaaacgtgcattg PolA ggtctacgctatactttagaaacagatttttatgaccgctttctatatcaggctatatgtacttttttaatgccttatttcgatcctcttttatctaatcgagtttttagccatcgatataata aatatggtaattcaaagtatctttttaagcatcgtattgaattgtggaatacatttgaaaatattagctatgtttcactaattgatgataaaacacttttaataacagaccttctcaattatt ttgaacaaataaatattgaatcaattgaaagttcattcattagaatgatagcagaccttaatgtatcaggggcagaaaaaaacacgattagaagtgctattagcactttgaaagttt tattagagaaatggtgttataacgataagcatggattgcctcaaaatcgtgatgcttcatcatttattgcgaatgtcgttcttgattctgttgacaaaaaaatggtaaagaaaggata tgattattttcgttacgttgatgatattaggattatatgtaatgatgaaatggaagcaaggagagctttgaatgacctgatttttgaattaagaaagttagggttgaatataaattcca aaaagacagaaatactcaataaacatagtggaaataaagaggatttttttcctagtaaagatgacactatgactttaattgatactatgtggagatctaaaagtaagaaagttatc gcaagatcgattccaattctttttgagtttttaaaaaatcagatcgacgagggaaaaactcaaagtagacctttccgttattgtataaatagatttaagaccttgatatcatctaattta tttgaggctaaatcagttttagctagagagattgcagatacattaattggggagctagggaaacagccggtttccacagatcaattttgtaaactcttaatggatttggacttgtca aatgagcaaaataaagtcatatctaattatatagtaaatgaaaatgtagcgatatatggttggcaaaattataatttaatactacttatggctcataataaatattttgatgataatttga ttgatttttgcaagctgaaaattgaaaagaaaattaaaagcccagaaacaccagcatgttttatttatttggcatcaattggcttgcagaatgaggttgaaaagtttattgattctttt gataacacttggccatatcaacatcaacgatactttttaatagcacttcaagacacatcaccaaaaaaattacaaccaatgtttggtaaggtaggatatcgtctaaaagggaccg ttaaaagattaaaggaaaataaactatttaaaggcgagtcaatataccttaaggattttaactcgactttaattcaagaaatatatcatgagatatcaccatatgagtaaaggaaaa gtggtttttcttgtttatcaaaaagacttttcagaaagtggaaaagaccgatattttatatttgataatgaaagtctttttgaggtaacagtacaagaactcgttagttataaatgtttca ttgttacacatgacttttggttgatttcaagctctatatataaaagtgcaaatgtattaccgaataagattattgatgttgtacttttagcaaagattgtatctggagttaaatctgttact agtgatactcaaccatgggatatatcaaaaactatcaaaccaatattctcaaaatctgaggactttaattattatatggatgtgtattataggaggaaaagttttgattttgacatatat cttctttttgcacataagctctgtgaatattttgaaagtttaagtgaaacttcctatcaacaagaggaaacgagtaggttttatagtttagaattaccagtatataatttaatgactttag ctgtttgtagagggataaaaatagataatgaaacttttcgagagcacaaggaaaacttacaattagatttttatcgagaattaaaaaagttttctgagaagcatgatgtattgtatg agttaccaaaagaaggtgatattcgggaaaagttaattacattgaattatcatgttgatggcgtgtctatagattttctacttgatttcataccctccatagatggatatacggatgat cttcgccgtttgcagaagataaataaaagctatcaaatatttaattcaatatcgagctcctctaatagattgcatcctatagttgaatctcattggacatcaacatctcgaatttattat aaatctcctgcaattcaaaatattgctaaaaagtatagggatatttttataccagatgcaggtaagatattgagttacgtcgattatgatcaatttgagatcggagttatggcttatat ttcaaaagatcctatgatgattgaaatatatacgagaacagatgcttatagtgattttgctattaaagtttttaacgataaaaataaacgaaaaagtgccaaggtaatatttctttcat atgtttatggtatgtcaatggataatataaagaaatctacaataagcatgggagggaactctggcaagcttcaagattactttgaaaaatttgaggtttttgaaagttggaaacaa agtgtttggaaagaatttgagagtgaaggtcgaattggtactatcaagtctaactatttaaaaagggcaggtgaaggtaagttaacagaaaaagaaaaaagaatttctgtaaat cacgttattcaaggtacagcaacttatatttttaagcttgctctgttagaagtttcaaaagttgatgatatagatatattgatcccaatgcatgatgcggcacttattcagcatactga aaaagtaagttctgaaaaatttaaagaaatatttgaaaatgttatgacagaagtattaccaggtattcaaggaaaagcttcattagaagatttctatatttcagaataa (SEQ ID NO: 395) 34 RT atgagtgaacaattcgtgtccgaggcggcaggaactccgcatctggcagagcaggatgatggtcttaaaaatctgaagttattgattgaatccttcaatacagacaaactgaa (UG9) + ctccagcgaacaaaagaaactccaagaactccggtccattctttcaccactactaaaaaaaggtggcgttttagcagacttatttcaagacgggaaagacgttttagcatttcc PolA gatcgacgtcgacagtgtcctgcaacatttaaaccaagatatgagggatgactggtttactgacacacttcaacacaaagatcttctctcgaacaaacaatcccttcatgaagtc ctacatgaattgttaaatgaaggaaatggacaatatatcggctctttcaggagtgtttacaatataccaaaaaaagggctagggattagatactcgctagaaactgacttttacga cagatttatatatcaagcaatctgtaccttcctaatacaattttatgatccactcttatctcatcgagtactaagccacagattcaataaagatagaaaatcagagaaatacatattta aaagccggattgatttatggcaaactttcgaaggggtaactagaacggcactcagcaataatcaatcactactagcaaccgatctaatcaattgctatgaaaatattacaattga aacaatccgcacagcgtttgagcgatcaattgaacatataaatacttccggtccaaataaagtattaattaggaatgcagtgcaaaccctctgcaaccttttgtcgcgatgggga tacagtgaacgtcacggcctgcctcaaaaccgcgacgcatcgtcattcatcgcaaacgttgtcttgaatgatattgaccatgaaatggtgcgattagggtacgattattatcgat acgtggacgacatcagggtaatttgtcccaacacgagagtcgcaaagaaagcgttgaccgagcttataaatcagctcagaaaggtcgggatgaatataaattctggaaaaa caaaaattttaacccaagactcgactgctaatgaagttgatgagtttttcccaacatctgacgatcgaagcctcacaatcgacaacatgtggagatcaagaagcagaagggtt attgcgcgttcagcaaaatatatatttcaaatattgaaagagtgcatcgaagaaaaacaaacacagtccaggcagtttcgattcgcggtaaaccgactaatcaagctgaccgat gcaggcatttttgatattcatgcaaccatagcaacagacttaaaagcactcttaattagctcacttgaggaccatgcggcttcgaccgatcagtactgcagacttcttgggattct agacctcaacgagcacgagctcaatgatatttacaaccatctcagtgatcatgagcgctcggttcactcttggcaaaattttcatctatggttacttctagcaaatcgcaaatataa aagcactaatttaataacgctagcaactgcaagaatagagtccgacatacttcaaccagagatagcggccatctttatttatctaaagtgtgttggtgaagcacaagttttaattg ataacatttccaaatttgagtctgcctggccatattaccatcagcgaaattttctattagcctgtagcgattttgatcataatcaactgaaacctttaatttctaagctaggccctaaac ttaaatggaccggtagcagagccaagccttattttactaatggtatgcctttggtcgaacgagacaaaatagccatgcttgatctttatgatgagatcacaccatatgactgaatc caaaaaagccttactttttatagctgactatacagaccaagggcaagacagaatcttcttatggtcagatggcactttaggtgaagtcaccatatctgatttagtagatcaaaagc atgagcttgtctgccatgacttatggttaatcgccccatcgctctatcgggcgacaaacaaactaccatccaacatcacagatattgaagaacttcgaatcctcacttctggaaa gaaaaaagaaagagaatcgagagacaagaaagacatatcccaactcctgtcctcgtttgtttccgaagaaactattgcaagatataaagagatttttaaccgtaagataccttta gatgaagctgttctgtcttcaattggcgaagccctattaaaatgctcagaagttgtaaaaagcgatgcaaatactgccggtgaatgggagagattcatcacaatcgaacgccc cgtaaacgactatctaataagatcaacatcagaaggtatttctatttctgaagaaaaacttagataccataaaaacaaaatagaattcgaattctatatggcattgaagagtttttct tccgactacgatatgcctctagaggttccctccgatcaagccgttatcgaatacctagagcctaaaggctttgactttaccggcctagacgtggattacattttaaatttcgtccct atgcaatcacattttgcagaggacttaattcgcttaagaaagattcaaaattcacgtagagtattagcagccattcccttgagccaaagtagaatttatccgatagtcgatagcttt ggatctatcacctcaagaatctacttcaaagacccgtcgttacaaaatttggcaaaacaccatcgagacattttaattccagataccaacaagcagttgtcctacatagactacg accaatttgaagcaggcgtaatggccgcactctccggcgatgagaaactattagagttatataacagtagcgatgtatatgaaattgctgcaaaagaaatatttgacgacaag agcaagagaaagcaagccaagaggctatttctttcttatgcctatggcatgaagcgacaacacatccttgctgcagcgcagggctttggtgcagatcgccaaaacgctaaga aattctttgagcaattcaagacattcgaagcttggaaagtcttagttcacgaagagtttcaccgtacgggaagaattggcactgcgcttggcaattatatgcaccgtgagcgaa aaggagaactaacaagcaaggaaaaaagatctgctatcagccaaattgtgcaagggactgcctcgttaatattcaagaaagcattactatgcttgagttcaatatctgaagtaa aactaaaactgccaatgcacgacgctgttttgctggaacatcccgcagactacgacatggatcgggtaatcaatattttttcagaaataatgtctgaacattttcaaaataagatt caaggcaaggcgtcattaagccaattccatgaagatctataa (SEQ ID NO: 396) 35 DUF4297- gaaatttcgcgacagagatccttaacggtgcgtcgagcttcgacggaattcagaataatgatggtctggtgttcggtgaatcgtgctttgcgcatggcgatctcctatcagaac STAND aaaaccagtatgccggatgatctctaaaagtgaatggaccgatatgcagggatgcttacagtgggtcttcgacctttataagcatagtaaagaatagaatatgccaatgtacga taatctgtgcactctattacctgcgcaaaaaagtacaccagaattgtttgtctggtttggcaaattgagatcattaggcggcatagcgaatgactttaaatgaaaagcccgattca tcaataaagattgttaaaacaaaaaccttgcccccagcagagggcgagcgccgggcaatgcgtggctatatgggccaatatgaaagagccggtgcagccatttatgctgaa ttagagcgtgggcaattggagtggataggcgtagcggaccgcagtgcgggtatcgttgatgatttagtacttggatttaatggccttatcgttgggcaccagttcaaaacgtcc cgtttccctggtacatttacagtacagacactcttagtagggtctgatggtctgcttaagccattagtttgcgcctggcaaaatctttgtagtgctaacccaacgtctcaggtagaa attcgtttagttgtcaacgattatccatcagttaacgacgctcccggaatggaagctccagctcatagcgctgccttccttgatgagtttgaacattatcccaaacgcacgcttga ggaatggcgctacagtaactggggccgtttagtcgaaatattatttcaacattcctgcctaggtgacgatgatttcgagagattttttcatgcgttgcgcataattcatggttctgca gcagattttatacaattccataaactcagtgcagaacaagcgagactggcgtctgatatagcaaaaatattacctcgactggtctccgataaacgagatagggatcgatggtcc tgtgaagaactattatatgaactagggtggaaagatcccaccaaaacacgccacttacatcgttttcccatcggtgctcacgtccaacgcaaccgcgatacggaactacaact tctccagacgatacgcaacacaatccagggctatgtggcattgattgggcctccaggttcggggaaatcgaccttgctacagacaaccctagctaccgagtataacactcgg gtcgtgcgctatctggctttcataccgggcgctgcgcaaggtgtagggcgcggggaagctgatgatttcttcgaagacatttctgcccagttacgcagcagcgggctgcctg gacttcgccttcgagacagcagccaatttgaaaggcgcgaacaattcggtgaactgctcaaacaagctggcgagcgttatcaacgtgatacagtaagaaccatcattattgtt gatgggctggatcatatcccccgcgaagaactaccagcccattcgctgttaggggaattgccgctgcctgcagccatccctttgggcgtgacatttatacttggcacccagcg actggaactcaggcatctcaaacccgcagtacaggaacaggctgggcatccggatcgtctcgtaacaatgcatccacttgagagagtggcggtcgccaggatggcagac gttttaggtcttgattcaaccatttcgcgtgtaaaactttatgaacttagccgcggtcatccgctggcggccaattatctcattaaggcactgttatcggctgatgaacaggacata tcatgcatcctcgccggagggatggaatttaatggcgatattgaatcagtttacgcatctgcctggagagaaatcgcaaacgaccctgatgttatgcatgtactgggtttcattg cccgtgtcgaagctccgatgccgctgaaattgctggcaacaatcgtagatgctcaggcgatagagcgtaccttaaagaccgtccggcatttactcaaggaaacctcaaagg ggtggactgtattccataacagcttccgtctatttgtgctctccaaaccaaagataacactgggcagtatagatgaaacctattcacaacatatttatcgtgaattagctaaactat ctcgtcatgcaccagaacattcattacagtcctggctaacactgcgctatctcgcccggtcaggagagcgtgatgaacttctggcactcgcaactccagcatattttcgacacc agtttgcacatggacgttcctgttcagagattgatgcggacattcacttggctctgattgctgcgcgttccacgtatgatggtgtaattgccacacggttattactttgccgtgatg agatatccagacgaactcaagcactggagtatgccaatgaacttccgcgcgcgatgttaaaagttggcgatattgatgcggcgatctctttcgtccaggactttcccaatgcg ggctatgaagttgttgaccttcttttggaacagggtgattttgaccgcgcgaaagaactgtttgagcaccttgagccattatctcaattgcatacccccagattcgagcactatgg ggattcgcataatctacaagaattcaaaaaatgggcaaaacgagttgttcacttccgcgacgctgagcaaattaagcaggcaatagactatttgaccgttgaggggtttaaac acgccacaagtgtatcaaccgatgaaaatatttcctctattcgcgaacagttaaagtggacagtggtcgaggcaattgttaactggcaatcagacgttaatattcaggatacctg caatcagtatggcattcatgtgcaagagataccggttttgatgactcaggctggatttattgctagagacagaggaaataacaccttagcatcggaattatttaagactgccatg gcattgtctgattttaatgatgtttctaatggggggcgaagatcgattgcattattttatgccacatcaggctgcaccgatctggcttcaaaattattcgaaaacctttttgcgcctgc aatttcgatgggagacaatgaattagaatcaacaaaagcactgacgcttgcagccatggaacatgcgcaactttgcgttttgctcggcaaatccttgcccgacgtagtcacctc aacacacgctatcttacgaccgctgcagacacatgcttcagaaacgggacgcttgttggggctgtccataataaatgcctcatgtattccttctggaaatattaaaatggtctgtc gcatggtgatgagatatgtaatgcaactcaatagctattctggaaacgatacctatcaggctcaattggcattgacagctacatcaccactgatttgtacattaattaaaatttctg cgctgtgtggtaaggttgaatattattcagtaataaatgaaattgataatgcaatgcctgctttaatattaaaaggcaatacactactccggcgtgaaatagcattggcaatgtatc aggctgacggtgaccgtgaaagggcggccgccagatttgagcctatggtaaacgagttggtagaaaatacacctagcgagcaactcgagactctgtcagttctggcaaac agctttgctgcaattggcgatgttgaccgggcactaaacttacttgcttcgatacatgaccactgtttaggctacgctctggcagcgcgtaaggaccctttatactctgtttggaa agacatattgattttggccaatgcggcagacccagaacaccgtgctcaacgaataggtcagttgatacgacaggttgatggtatgaaggaaaccgagggagcatctgccgc atatcgtttgacagaagtgttaatcaatgaagcaatgcgtatgaatgcgcacagtggttataccgtggcacagaaactcagcaactgggggctgattccatggccaaatcagg taaatgaactggtaattggtatgctagatcgccgtcctgaaatggtgtttctctgtacacaaatttggtgcgggctatgccttccattctacattgaaccctattatcgtgaccctac acatgtaggcaattatattgacgttgctgcaaatgcagcggggccttcatcaattgccaaactggtatcaattctattaccggcaatccaggttcatagtcgagctcacgagcga ctcacgctaataaatcgcctgagcaaggcggcattaagacacggttataccgataaccaacttgataatgccattactcgatggacttcagaggcccccgaagcccgccgct cctacacgccacaaacgtacgacgaagcttcaacccttgacgaacttcaacaggcatttgaatcaaatgattccgaacctgagtatcatgcgccttatcgtttttgtgagcttgc agagtccgccgcattagacaaggtggtgaaaatgtatgagtgctggcattgcctgcagtcggatgcacgttgtcgttttttggttgcagagcggctagttaatgcgggggaca cgacgttagccagaaaattagttgatgattacgataccagtagtgaccgggagatgtcatggagccaatggttaggaggaaatcgattccgtctcttccacgcgcgtaagcta ctcgatggagcagcaattcatcatgaagcatatgaagacttcatcagttcaattgtggctgggaaagagagcaccatgtcgttgctaacagatatggcagacattcttcctgtg atctgtgagtcgccagactggcccgccgtctggtctatcctggcagagcagatgtctttcactcgcgaacaccgtattggtgaacttttcgaatttggaaatgaaaatatgaccg acgaagagttacttgcggaattgctccatttttcattacgattgcctatcaccgaagctcgacgacacgcagagaaaactgcactaattctggcggtacattcaacaggaggg caaatcgtatttgagaacaccataacacgactcctgaacggcacccttgatgaaccattccaggcattgcaaattttgcttttgctaaaacagaaccactttgctgctaaatttggt gatttagtctctggccttacgaatcatcgtgatgtagctgttgctgaagctgcgtgcttgttagcacaatattggcagctacctgtatcgattgattttcatccgttgccgttgaccta tcgattggcactcgacggagaccctgatcatgaaaatgctctgttagatcctgtgagtggggcaatgcgtattgaagtcgacttaggatggacacaaatgcttcgtcccgttgc acggagacttgcagagtttgctgattgtgacgaaatgaacatacgccagcgtgccgcaacgtttattcagcaatggggagggctggcagcctttggccctggagcaacaaa aaaaatcgaatctcagttacgcacactctcaatgcaaatcacctatcttaagccccatgcttacattggcatactggcacttcgtcatgtcgctggagagctgagcttggcaggc ttgctctcgccaagggataaaccatcgctactggaacaaatggatgcagtacttccgccaactcctcgccctgaaatgcaaatccggccaactggcattaggcgaccgctta aagtcaaggatgccccgtggagtgaagctgaagaaatgtggacaaatttggttgacgaggatgttaaaccctggataggtcgtgccgacgaattcgtaatagccgaggtttc acaattcaaaatgcatgatacccggcgtgctgaatatcaggtctatcgtattagcgcacctcaaattcatatttctgatgccaaattcatggcatggtatcaaagtttgcccgctgt cgtttggctgggaaaaatgatcccacttgacgaagacctcgcaccgacaatagtcaggcgtgtagtaagctccatcgggacaatgtcttcgccgggatatgccattgcattat gtcctaatatccagatgcatctgggatggcatgaatgctgcgagatgcctaatatttataccgaccagaactcaacaatcgtagcaagattagtgaactggcgagacgccgg gccagtggatattgatgatgattatatatggggggaaggttgctatctgacgctttccaatgcaggcctgatacaagtcaagactctgttcggcgaattcaccgtgcgtaatttc gcaagcagggctgttcggcaattgcgacaaggcgaagcgcaaatgataaagacagctcagaatcagttcccgatactgtagcgagacgatttcacaacacggttcgattac ctgacttctccaaccatggtctgaagaagtcagggagtgtagatcatgccggcattctgtttctgaatggcgcaggatttcgggtcagggtcaccacaacaggcttgtccttttc t (SEQ ID NO: 397) 36 DUF4297- ttgtgcgtagcacttctccagtttttgttgaaacagataaagagactaaatcgatcattcgaacccaaaaatggccgatttgatgcagacaacgatttaagccatatctggtagcg STAND caatcgtcacctatgacaaaagttacatacttgtaatattctgaattcaatattcttcgtgaaattcattcaatgcttctttgagtagtgttttggcgttatgataatttcctaaatatcata aggttatcaggcggtgatgtatgaggcgatttgtctatggcgattaaaaacagcgcaatcatttatgcaggctatgattatcagacactccaaggtgtcaggctactggcggatt ggctcaatacaccaactaaatataaccgaatagcatttgaggctgatgcgaaacaagttgatgctccacaaggcattgatgatattgtctgcgaacgtcaggatggtaaaaca gatttttggcaagttaagtttacgccagataccgacaaagaagacaatcaactatcatgggaatggttactgaaacgtagtggtcatagtattcgagctcgttctatactgcaaa aaatagctgatgctgttgataaagtacctgcggaaagaaggggagatattactcttttgaccaataaaatacctaatcgtgagatagcaacttgcttgcgaaataacaaaatag attggaatcaggttccaattgctaagcagcaaagcattattcttcagttaggtacccaggaaagagcaaagcaatttttcgatatattacaaatatgtcatagtgatcaaagttata cgcgattaaatagtattgtcccagaactacttcgcaaacataccaacgaggagggggtatatcgcctgattgaacgagctaaacgttgggctatccagcgtaattcaccttcg gatggtggatggatatgtcttgaacatattcgtgcagtgatttcaactaatagacctgaacctattccgcagacttttgtcttgccagataactatattgttcctgatgcagattttca cgacaaattcattgattcactttttaatcctactaatcgattagttgtcttaactggtgctccaggaaagggtaaaagtacttacatcagccatatttgtcagatattacaaactcgcg agtttccttatattcgccatcattattttcttgggttagatgatcgtacgacagatagattaagtcccagaatcgttgctgaagacttgatgtgtcaggtcaaagcattttgctcacaa atcgaaatgaaaaattatcatgcagagcacctacataaagtgctggctgaatgtgggcagatatataaagaagaaggtaaacgatttttcatcattattgatggtttggatcatgt ctggcgtgataacggcaaagataaatctccactggatgagctattttgccaattgttaccgttgcctgataatgtaacattattggttggtactcaaccagtagatgatgagctatt gccatcaagattgttacagaacagtccaagagaagaatggttgcacctaccaaatatgtcaggcgatgctattcgtaaatatctatcgggacaagttgaaagtggccgtatcgt attcaattttcatcaaagccagtatgaagaagttttatcacagtgtgctgagttgttgactactaaaactcagggatatcctcttcatgttatctactcatgtgaaaaattacatgttga aggtaaagggttatcgcactgggaaatagaaaacctgcctcgctgcgaaggcggaaacattacaaattattataatgaattatggaaaatattaaattacgagcaacgcgatat tcttcatctctgttgtgcttttccttttttatggcctgccacatcattttctgagattttttctgagaggactgaaactataccgaatgttaaggctgtaatccatttgctttatgagtccatt gctggattaagaccgtttcatgaaagcttgattgtttttacccgtagcacaactgaacatgagaatagaataaaattattattgccagcgctaatttcatggctggagaaaagcgc acccaaaccgataaaaaattgttggtactggtcatgtcttgcttacaatggtgatccatatcctttaagaaatggcttaactagagactggatattggaacggttggctgaagggt atcgacaggatgagtttattcgattactcactcaggctgaaacttctgctttagccgaagggcattttagtgaggcctatcagcatcgttcacgcaagactcgactacttaatgct aggttgcaaatctgggatatgtcgacgttgggcgtttgcagtatgattaatgcttctgaagcattgcttaaacaatatcaatctacccagaatgtcagttcaccaaagatactggc aactttggctatcgctttatggtttcgtaatcatttcgatgaagcaaagcgcattacaagattggcgttacaacgctactcaaatgaatcatccgtatataccaataaaaatagcga tgagtcgcgtgctgacattcgtttattaatcaaagctgctgttttgactgagtgtttcgatgaaaaatggttggcaaccggttcagtacacaagtggagtgatagtaatattaatct gcttatcgaatgtgcggaatataaatcagatataggattactattttcattacatgatgtttttaagcaaactgtcataaaaaataaaatagtaaatgcgattgtcagagttgggattg ttgaacaaatagatttagaatactggccacatttttctggtcttgactccgctctgctgcggttatacagtcatttatccactgcacatccatgttcacttataacagagcaaggtga aagtgaaatcggtagatatcatgttcatccagaagtatcctacgatgaatggttctatgacagccttttttatcgtcttaatgccagtggagattattgttggctaccggttagcacg ggggaaggacaggaggaagtcagcagtcattttctccatttaaatgatttctcagatattattgctgaaagtatggctctaaatattcaacaaagcttcagcgatttttgttcacttat tgctttggtatcagatcttaaagatcatcaaatgcaaatccaacagaagcgaatgttttttaaaactgattgggtaagcattgctttaaatttacacttaatcatgcattgcaagccg gttaatacggaagaaattgatattattcttaattctgagcatacagccctgtatcggctgcataaaactattcttaactttcatagtagagccttcgaatctgatgcaatagcaaactt tctggtatttgaggatgggaggcagaaggaaaaactacaagagacaaatgaatatttggcgaataatcttgagttgtcagagattgcgcttcattatgatctcaatcaatcaattt tttttgagcgagtcaagttatgttgggactatggtctgggatacggacatcataaagatatagctctgaatcaggtgctgactgcaataaaaactattgcaactgttgagcctaaa tatgcattaacgcagcttgagcgtgtgagtccattggttcataatatttgtgacttcacagatggtgaccatactcaacattccgtaacggaattgtctgcgctatatgctcatctttc tccccttactttaagtagtatctatgacagttatgttagcgagggtgagtggtatgatgcggataatgcattaacgcaatacttaaaacatgctgatctatcatcacctttcgttgag agtttatgccggacattactagatgatgggcaaattgaaataatacagaatcgtgctaaagacaatgccatattgactacgttttggccggaaatattaccacgaaaaatggatt atagtagtagcgcaaaacgttcattaagggggactgaaaaatttgatccagcaaaaatcagccctgctgatgtaactaatttactcaatgttcggtcaagttatgaaaatattcct aagtggtatcattattggaaagaccaaggaaaagttacagaagtaattaacgtattgctgccaatcattaataatggcttgccagaatatagtgaatttcgttatatattatctgattt atttgaagatacattgcgtttgaaaggtaaaaaatatgcttttcccattttagtgcaggaacatattcagcgaaatggttggggtgaatggggggagtctgatgatcaaacatatg ctcggttagataaagttatcagattgtatccggataaaattgatgactttctttacaagacgactcgacttcatcactataaaactaaagaagagaacttggtaattcccgggaata agctaacatatttattagtaaatgtaggccgagtggatgaggcgaaaagtctatgtgaagcgatgatttcggaggtagaggcagaaacccagaatcttccgttgtgcaaacct caatggcaatgggagggagaattagataacgatatgatcgccgttaaattcatcattcgtcgtcttttttggcctgttcaatgtgtaaaacatcttgtcgctgatcaattgtctcatct cttagttaatggtcaatgtgctgaagaaattgaaaatttacttgtagttgagatgggaaatcgtcaactggagtcagaggtggtagatattttaactgttctctggttagctagtttg aaaggttataaggttcagaataatatatcttcctttatttatgctcgtagctttctttcagatgcattgctggaggctatcgttccaaatttaccaaacctcagtcgctatcaagtgctg tataaacatcctgatgatgatggtaatcactatggctttgaaaaaacacttggcaatgaacttccccatatattttgggatgaagtaaaaaggcttgaggagaaatctggagctc cggctaaaatattaatgaaaaaagaatggaatgatatttgttataatcatgttcaacgatgggaaagggttgattatttcttcggttcagagcgtgatggttttactatgagtttttcc acaaggaatacacgatttggtatatctgcatacttgagaaccattaaccggcttatcaacgaatttagaatgccaaagcattatgcagaacattattcgatttgtttaatgtcagcc aacccattattttattccgtatctaatcaccgacctggttggttacctttatggcaatatggggagattaccacaaaggaaaatgtaaaaacatatgttgaggaatgcctgaatgc attcaaaaatgaacaggaaaattcaatattaggagcattgtcattacctgtacgcatcgatgaaaataattggttagatattacggctgttatggggatacaaacagaagaatatg cctcttttaagatacaacatgccgactgtggtcatagtgtagatagtttacttcaagcttatagaaatattaaattttcatttgcaaaatgggctgaataccaaaattgtgtaccactat tgggaagtacacgcgaattactgagaatagcacggtgggatataatgtacgaatttcgtgggcttttctcattcggttgccaggaacaggttactgcctacccggctaaaaatc gtattaacttcgattatcagggtaaaaccatcggctatagtgacttctggcaagcaataccattatcaatttatcctaaggatatacgctcacctgttgctacttacactgcttatgat aaggaccttgcctgtaactggaaaaatcatagcgtactgaaaaagcctaatatcatgttatgtgattgtaaggtactaaagagagaaaatagttacagtccttttgaaatatcaga tattcgttttcactttgaatctgagccgttatagtaaggattattttgcgataattaatcaacggggagctggtcaaagtgcctgctcccatattgactaatatacaaatgtgtttgtta agacctttccaaaggtagggggaattatgaatttccgctcctcgctcatagccgcctgccagatttaaccccaccctaccacagggccccctcaagccaagccgccgccaat acaattttcccccacaccaaaacgcctccctccctagagcacgtactcacaacgccga (SEQ ID NO: 398) 37 ATPase_ atggctaaagcgcactccacgccgctcaacgatattgcgattatcgctgcgaatttaaaagaccgttataaaaatggcttccctgttctgaaagaaattgtgcaaaacgcagat GHKL + gacgcacaagcgtcatcattaatctttggctggagccctggtattgctggggcagatcaccctttattgggcgatcccgcgcttttctttatcaataatgcgccgctgacactcg Helicase_ aagatgtagaggggatcctctccattggcattggcactaaaccgggtgatgaaaatgcggtggggaaatttgggctcggtatgaaaagcctgttccatctcggtgaagtatttt SF2 tttaccagtcctttgactggcatactgcttcggccaaatcagacgtttttaacccctgggacagttacagatcttcttgggccgaggtgagcgagcaggataaagttcgtattga ggatgaagtccgcgcaattacccaaaatgcgtgtgatgattatttcgttgtctgggttccgctgcgttcagagagtatctatcaggcgcgccaggatgatgaaaactttattattg tcggcgaagactatcgttatgaggtgcctgattttatttcagacccgggactcggggataagctcgccagcctgttaccgctgatgaaaaccttgcaggacattgagctggtc gtgaaaacagggcaggggtatcagcgtcaaatacatatctcgctgcctgaaaaggcaactcgcccacaatttaccaatcttaatggtgctggggaatggcaaggccacatta ccgttcagcgtgctggattgccggaccctcagcaaaaattctacgtcgggcatgaggttttgctgaatgctcctgagttttctgccctgaaatcacaacgcgcctggccattca gttattcacgagaaggtaagaagactgcggataaagcgctgcctcatgccgctgtggtgatgctggcggagaaagtaccagaaggagaggcaacgctggcggtggaatg ggcggtgtttttacctttgggtgagcaggacaccgcgcagcatgcgcagaaacaaacattctctatttctggtcagtactcgtatcaaattattctgcacggttactttttcatcgat gccgggcgagtgggtatccaggggctggctacactcaccagcgccacgccgttattcaatgccccagattctccaggccaggaacaactggttcaggaatggaaccgctg tcttgctactcagggaacgttgccgctattaccgaaagcgcttgcctctcttatgtcgcttattcacgccagggatgcggaaaaagcggcaatttcggatggtgtgcgtagagc tttacgcaacaataatgcctggttccactgggtaacgttgtaccatctgtgggtatgcgaactaacgcgggatggaagtcagtggtgtttagttgatgcgaacactcccgttcgt cgattgcctgccacaccttcaggtgaagcgcatcgcccctgggaagtgctgcccgctctggaaagtctgggtgtaacgcaccgatttatcgatgaaacgcagcagaatatct acaacgaatttaaaagtaagtggcagttgtcggagattcaggtgttgctgcatagcgtacccgaaatggtgttcactagcttaaagcttacaaattatctcaatcaattgctgaaa gaactgccgattcagtcagacagctttgtgcttgacctgattgcattgctcagaaaaacgttatttagcgtgccgctggttgagctctcacgtaaccaggcggcgatcggagaa ttgatggcgttcattcgtccgacctggcgttacaggattgccattgaccgtcaggagcaggccctgtgggaaacgcttgggcgtaccgctatggataggttgttggttcctgct tttctcgataacagtaaagaacctgccagcgcatctctgaattgggagacggttggcagcctgctgcaagcgatgcagaaacaggcttctgccagcgataactttgaaaaatt ggtgcgggattttattggcaagctctcatctcccgatcgtcaggagctataccgtcggtttgataccttgaaggtctttaaggtttcacagccaacggggatatcttacctggag acgcgctgtcacttgcttgaactaaaacaaaagcgaaggatattcaaacttggcgggagcgctaattttggtatgggtttaagcgcattgttgcagcaggcattgcttgaaaaa gaaatcgtattgatcaccaatgatattaaccagaccttatttggtggttctgaatattcagaagcaaaggagtgtgacagcgaaggggttatccatctgcttgagcttcaccctcg tctggattcgccgacaaaacgtatcgatttactcaataaaatggctgcggacggggacaaatttagcgccggagatcggcttgtctatcgctatctgatgcacggtaattcgga tgatactggtgaagctgaattgtggaaggcgggtaaagcgcatcccgtatgggcaaaaattctttctgatgccgattcggagcaggtcaagtggactattatttcgccagaaat tgagcagaatcttggactgactcccggattcgagaaggcgcttaggcttgatagtgtaacgccggatcatgtgatccaccgcttcaaagaaagccttgaatatctggagtttga tgacttatctgcagaagatgcggaagaagttctgatgcacattggccgctctatgggcgaaacaatgtggcggcagatggctcttcatcgtagggaaggcaaagaggggta tatatcccttgatgatcgttgtttcttgcgtggggggcgcattgaactgcccactgaattgaatgacaacgtgacgttcatccaacccgccagtcagccagagatgcaggatca gcagcgcaaatatctgacaatggtgaacgccgaacatgcggtcatgctggctttatccgggccgaacccggaacgttactgcgactttatcctgcaattgttaatgcaaccga cgaatgatttgtcttcagagagagcattcaataacctgcgccgccaaaaatggctattgcaccgcggtgtggcgatggcaccagaaaatattctggatattagcgcggcaga ctatccggagatcgcgaagctgacagaagcgacgccgctcatcgctctgcttgaggatattgctctcccagatgaggctaactgtgcgctgagttcattggtcgtgcgaggc aaggctgcgttttacaaggcgctcactgtagcaggtacacttccactttatgcaatcggtagcagcttacgtctcactgatacgattattcttcaggccagtgacaggtcgtacg cgtttgagagctttgacggttggttgctcttaattgagtgtctcaaaggtgctgagtcgcttgagggtaatgaggctatcaatgcgctgagtttttcgcatccggttacagacaag atagttgctagctaccggcatctcgttgacagcatgaatccaacccaaagtggtgaattgcgtaaagcactgttaagcacgctgtgtcatacccattcagatcccgccagcgta ctgcgttcaatcccgctcagaacggctgctgatacctgggcgttagccaccaatctctgttatggcgtaacgggagcagaacgtagtgctgtcctacatgacgacgactggg cgtatttgtccccttggctgcaggctaatgacttgtcggtagacagtactgagtccgaagggcatctcagtcatgttgagcattctgccaatgtcttaagggaatactttgcgccc tgggaacgctgggttccacgtaaggcaattgctgcactgctggctttgctggcggggaatcgtaaggttcataagctatgtgagagctacctggggttgcaaagttatgccct gttcgtgaatgaactgtcgcaagacagcaaacccttaactaaccatgacgctcactttgcagagttaacgctcttacagtgcattgagaaatatgcctttgccgtgaaggtttac gaagaaaacacgttgcaggttcattctctgttccaggaacgtttgaccgtggcgctggcaactgacctggatacgatctttgtgggtcagcacggctacgctttttataccggtc aggcaccgcaaatcttcattcgccgattttccccagaccagtatacgcctcagcaacttttggcgattctgaaacgcagcaccagctggctgcaggaaggtatttatctgcaga aggcaaggctagacacgctctggcaatcctttgagcaggccgagcagttggatgtgaatatcgcgcgcgtcactatcctgaacagcattgttgagcgcctgaaaacactgg gccttaaaaactctcagcttaacgttttaatgagagcctatgagagtgagcttcactctcttgctgaaagtagtgacggcaagttgctccacagctcgaggctcactgaaattgt ctatgacattgcaaatgctatccaggatcgccctgaactgcaggctgaaatattaacggcggtcagaaagcgtatagaggatgctcagtatcagccatcaagcgttccttttga gctgttccagaatgccgatgatgcagtagaagagttgttcaagctggatagcgatgcccgtcatgagcgggtacaccagaaatttatggtgaaagagcaaaacggcggatt gtcattcttcaactgggggagagaaattaaccgctttcagagcgtgaaaaatgagcaagtcgagaatgtacatgatggctacaaaaacgatctgaaaaaaatgctggcgcttt accagtcggataaagagcagggcgttaccggcaagttcggtctcggcttcaaaagctgtctgctggtgtctgatcatccttacctattgtcggggcggctggcgactaaaata gcgggtggaattgtgcccgaatcctgtgatgctgaaagttataaacaactaaaccaactcactgaaagtgccgcgacaaatggcctgtcacctactcttgtgtatttgccactg cgccagcatatgcaagcggaagtggtgttaaaagattttactctgtatgcaggtttgctaagtctttatgcacgtaacttgtgccagattgtcattgatgagcatgaatggcgctg ggagcctgttcagtatgcacgtattcctggtctgtcattgggcaaggttatgctgcctaacggcaagggtgctcagtcgccagtgcgggtggtggtttaccagactgaaatcg atgatgagcgctgccatctggttttccaggtcacgcgtaggggcctgagaagttttgatactcatattccgcgattgtggaacttgtcgccattgatgagtgatacccggcagg gctttttgattaacgctggatttgaggttgatattggtcgacgccagttggctattgaagctgaccgtaatcggggcattatccagaaagcgggagcaaaagttcattcgctgct ggaattactttggtgggaaacggagcataactgggaggagctggttgttgagtgggaactgagccctgaattgacccatactcagttctgggaaagcttctgggacgtgatgt ctacaggcattagtaacgatattaacgcgatggaaaacgaaaaattgctacagcagctttacgaaagcgaaaatggcatcatgagcttctatcgctcatatcccgcgctgcct aacggatttaaagagcaggctgccggactgataacgtggagcgacagagtgcgtagcgcggatgaactggtttctcgtctggcgagttcactgattcatctccctgcgtttca ggcattgcacagtgcacagtgcctggtggcagacacgacgggaagcaaacttaaagtcgaaagtaaactgtcgcttgaatcattaataagctcgtcgttgccggataaaca gggtgttgatatccagcatctgtcaccgcgggatgctgaaaagctggcagtcgtatttaacgaagagttcgacaagcgactgggtgaactgacaggctggcaggacaaaat tgaggctttcagaaaacagctgataaacctgcatgtgcaaacacaagcaggctctacacgcccgattagccaaattttgctcggtaacactccttgtgccgaaaaaaatgaac ggatgatctctgggtttgcacctaccgatgccatcatttcatcatcatattctaagcaggcctgtgaatttattgtttattgcaaacgcagaagtcagggatatgtttttgaggattta gtcaaatgggcaaagcgcaaaggcctggcggctgataatcaaaagcggcaggcattttgtcgttttctgattgaaggactggaaggggagaaactggcgggtatgctgatg gaagagataccaccggactggttgcttgaacttaagctgcgcccaggcgccttcccggcagactggcactggagcaataatgatattgcctctctcctgcaggggcggttac tgactaacattgacagaacaaaggcatgggagcgcgagattcgggagacaccggaagaatacgaaccgttggtgacaccaggtgaagccgtacaaaaaatacacacct ggtgggagaggaaccagcaggaagagttggtgaaatacaatgctcggctctaccctgaaggctggtttgactgggaagctttaagaaatgcctctgacgatcagcgttcac gcctggcgttattgaaactcctgtatctaggctcatgccagaccattgggcggactcaggaagagcaacacagtgccgcaattgagtattttgaggacaaaggctggtggga aacctttatcaaccctgatgcagcgcagcaatggctggatgtgatggacaattatctggaggattctttgtacggagatacctaccgtatctggctgcaaatattgcctctgtatc gtttttcaaagcatttagattcctatcgcaaactactggatatgtcggaagcgttccttgaggatattggggatttgctgcgaccggcatccagtttcaatctttcgggaacgggc gtgggaactgtagtcccggagttacgtgcaactctgggtactggggtgaacttcatcttccgtgaattggtgcgtaataacgtatttatcgattccagcattcatcgatattgtttct ctgcgccggaacgcgtcaggcgtctgttactggcgatggagttcgacgaaatggatgttaagcaatccactgccagtgactcgcttctgctgtggacgtttttccgcgaacat ctcggtgaggaagatgcgacctttaatcattgtttcgacataccgctgcgcattttaaccagcgaagggaaacgctcacttcgtattgagatatttggacaggatcccctggatt acgtatgaaaatgatctttcagcagggccagcaggtacgacatgaacgctttgggctggggacgattgaactcttgcgggaaaacactgcactcattcgtttcgagtcgagtt ttgaagaacgtccactttccgaactggagccggtgcgcagtgctcaggatgctttggcagaaggaaattatgacgatctgcgtgaagttctggcgcgcagtcaggcgcttgc gatccgctccatcaatgatagttggggggtgttctctacttcacgtatcaacctgctgccgcatcagttatgggtatgtcaccgcgtgttacggcaatggccggtacaaaagct gattgctgatgacgtagggttggggaaaaccgttgaggcggggctaatcctttggccgctgctggctaaaaagcgtgtgcagcgtctgttggttttagcgcctgcatcgttagt accgcagtggcaggagcgtttgcggcagatgtttgatattcgtttgtccctctactccgcggaaattgatactgagcgatcagattactggaatacgcatccctgggtggtcgc ttcattgccgacactgcgaaaagatattaatggcaggcacgagcgaatgctcaaagcagacgactgggacttgctgatcatcgatgaagcacatcaccttaactcgctagaa gattcgggggcgactcagggctatcgatttgtgcagaagcttatcgatcacggaaagttcgcctcacggctttttttcacagctaccccccatcgcgggaaaaattacggcttc tttgctctgttgaggcttttacgtccagacttatttgacgtgaataagccatttgaaactcagcagcatcatgttcgggatgttgtgattcgcaataataagcaaaccgtcacgaat atggacggtgagcgtttgttcaagaccgtcaacgtgacctcacagacctatcatttttctgaggctgaacagtcattctatgaccggctcacacgatttattctttcagggcaggc ctacgcttcgtcgctaagctctgcaaaccagcaggccgtgcaactggtgttaacggcaatacagaaactggcggcaagttcggtagcggcaatttatgccgcaataaatgg gcgtatcgccaggctcggggaaaatcagaaaaagctgcaggcgctgaatgatgaaatgaatgccatcatgagtgattctcaggccccggatctcgatgatgcctacattgc gcttgaaagcgaatatgttgaaatgtctgcttcggttcaacttatgcaaaatgagctgcccatgcttgaagagctgcaggcgcttgcggggaatgtggaatcggaaacgaaaa tccagaccttgcttcatgtgctggaaaacacgtttcttaatcgcaccgtcgtattctttactgaatataaagcgacacaggccctgctaattaatactctgaatgctcgctttggcta tggttgcgtcagctttatcaatggcgaaggacgcctggaagggatttacaataaacagggcgtcaaaacgtcatggagtatggatcgctaccatgctgcggagcaatttaaa agcgggcaggtacgctttattgtttgtactgaagccggtggtgaaggtattgatttgcaggacaactgttattccatgattcatgttgatctgccgtggaatccgatgcgtcttcac cagcgtgtagggcgactcaaccgctatggtcaaaaaaatcaggttgaagttattactttacgcaaccccgatactgtagagtccagaatatgggacttgttaaacagcaaaata accacagtcatgcgttctttgggcgacgcgatggaggaaccggaagatctgttgcagcttattcttgggatgagtgataaagtttttttcaattcactttttgctgatggcctgaca caaaagccagaaactctaaatacgtggttcgattctagagcagggaccttcggtggtcagtcagccgtcagcgtggttaaaggtcttgtaggccatgcggataagttcgagta tcagaacttagatgaggttccgaagcttgatcttatccatatgtatggtttcctcgagaacatgctgaaattgaatggacaccgtctggacaatgataagggtgttcttagctttgt cactcccaaagactggatcacacagtttggtatcaagaagaaatataacaatatgacttttgaacgtgttcctacagagaaatcgttagaagtgcttgggatagggcatgtgatt attaataatgctattaatcaggctgagaaatttaacgcctctacggcagtagcaaggggtatttcctcagctttactgatttacacattgagagaccagattactggcgatagtaat gtacaatcattttcagttgttggagtggtactggaagataatattcaaattttggtcaacgctgagttagtcaataaactggcttttatatatgacaacctacctaaaggttcgacgg tgattaagcttgacagtgcattccatgttaattttgagagggatataaagcgtgctgaggccgcattagatctctttattcctgggttgaatttaccctatgagcaagtagtatggca acatacagcaacttttttgccacagtaa (SEQ ID NO: 399) 37 ATPase_ atggcgggtgcttcaatagacgctattggtgtgattaaccaaatcaaagacaacttaacagaccgatacgaggatggctttcctgtccttaaagagatcattcaaaatgctgac GHKL + gatgcgggtgcgaacgaattaactattggttggagtaaaggtttctgcaatgcagaaaatgaactactcaatgcgccagcgctgttttttatcaatgatgcaccactggcagag Helicase_ gaacaccgtgatgccattttatcgatagcgcagagctcgaaagctacatctaaggcatcagttggaaagtttggtttgggaatgaaaagtttgtttcatatgggtgaggcattctt SF2 ctttatgtccgatcaatggcgaattgagcattgggcgtcagatgttttcaatccatgggataagtatcgtgatgcatggaatgaattcggtgaaaatgacaaatgccagatcgca acaaagttaaaagggtttttaagtaccgataagccttggtttgttgtttgggtcccgttgcgtacaaaagcgctagctaaagcacacaataactacattatcatcaacaactttagt ggtgatgaaaaactccctagtttctttaatcaggctcacttatcagagaaaacttctgagattttgcctcaactcaagaatctcaaagacatcggctttttctgcgagtctgacaag ggtgtgtttgatgaagtgacctccatacagttacatgaagattcgtctcgaagctctttttgcggtgaaccgcgattaaataatggagactcttttgcagtcttctcagggaaaatc tattcaaattcgaatgaagagcgttgtgcactggactatgcaggatgcgagcgagtcatctttgatgagcgtttaaatcaattaaaagacgaaaatatggggtggcctaagagt tatcagttcgacaagaaagcgaacttgcctgttgaggctctcgacaaagctgaacagcatgcttctgtaacattttcgcgttttaaaacaaaggggcaagcgtacctcaaagcc aactgggctgttttccttcccttaagccaaaccaaggaacttgttgctgtgcctatcgagggggagtacgactacaatctctatttacacggctacttctttgttgatgctgggcgt aaggggttgcatggccacgacaatcttgggttttctacctccctagagcatgtaaaaaatgatgagaaaaagctgcgtgaggtttggaacatcattctagccagtgaggggac attcaacctcgttttaccggctctaaatgagttttgtcagaagttaaggctgccacatcaaataaaaactgttttgaccaaggctttgtacgatctcctcatagaaagatatagaaa agaagtatccaagagcgccaattggataatcaatatcgatgacaagggggctgcttggtctttacttgataagaatgcccaatgcttaccgatccctcgtccagagaatagtga ttactctcgaatttggtcaacgttgcctggtttgagtaagttactggataaaaagtcactgtatgaagccacgggtaatgaatttttaaccgagcagaatcaacgtgatagttgga atattacgctcctggaagaagcgttaggaagtggtgttgtcaacgcattttacagatcaatcaatattgaatatctgcttcagttccttcaactagctaaggagcagtgcacgacg gaagattttgataacctgattattccacagttccgagaggtattgtctactcataagcttgctgaactttcattgaacaaggctcttaacacgcaagtttttgagcttgttagcgcac ctaaaaccgtcgtactaccaattgataaagatgatcaatctatttgggaacttgtctgcaagatcattcctgcaaagctactgctccctaaatttctgtctactcacaataagccaat tcatgacaatgtcactgaagaagagctcttcgcacttttaaccctagtagatagctacatcaaaaaacagggtgaacgtttatcctctgatgaatcgtctgcctgtgagcgtctca ttacatttgttattgattgtgtaaatgcaagtgaggtaatccaaaaaagcgatttttatcagaagagtgggcatttaaagcttctaaaagtggaagctcttggttcgcaacagagca caaaatatcgctccttaaacgaactcatagtgttaaaagaaaaataccagctgtttcttcgtggaggggagcggaactttggtaaagggttggggaaagagctagttgcagtc gtgcctggcttggagctttgttttataagcaaggattttgaaattggtggcctatatgaagggcttaccgcttgttctgaagccgcgtgcctacgactgctttccacgtacccaaat cttggttcaaattcggcaagactagcgctcactaaagtattctctgccgagctctctacagatgaggagaaaagaggtttccggtatttgattcacggcagcaaagaagacga cttgagacaaacgctttggaagccaaacagggcaactaacccagtatggatgaaaatttggcgtatgtgtcagccagaagatttccctggatggtgtgagttagatgaagagt tttctaatgctttgacaaaccagtacgaacattttattggcgttaaagagcagttctataaagacattatctctgaatacagaacaatactgcctgaatgcaattttgataactttgat gactgggaagtggagcaactgctcgcagatattggtagtcaaggagatgaaaggctatggaaagcgttgcctgtccataggacagctcataacactagagtcgcgattacg accaaatgcctgatggaaggaagtgcaacagttccaagtgaatgggatgttcaccttattcaacattcagccattgctgaagtcgccgcttgccagcataaatgggtgaatcat ggtctacctaaagagctgatcgagattgcgcttacccaatcaagtccagctcagtattccgcatttattttggaccagctctgcgctattcgtattgcgaatgaaggaattgagca tgagttggaaggcaagataaataataccaagtggctgcgattagcgtcaggaaccgaggtttcaccggaagctattttatctttctctgccaatgagctgcctgagtctgcaaa gttctgcgagttaaaagagtcaaacatttacatgttctctcaactcgatggaaacatgtttgagcacgatcaagcacgtggtttcttgagagagtgggtcgcaaaaagtaacag ctcagtttgctcgtgcattttggcagaagccgcgcaacatcaaagttatgtagttggtaatttttccaacatttctgctcaggtgctagaacagatttcatgcatcccgccattgatg cagctatctgcaggctggggcttactggttgagctctaccaaagccaatatctttcagtgaatgaaaacaagcaagtgatgctatgtaaggaaacagaaccacaatcattatg gtgggcgctggagcgtattgctgatgatgatattcacggtcagtcaaaggaacttcggaaagcatttttagaagcgttgtgtaacaccgagggaggcgttgattatcttcctaa actgagatttcgcaatgagaacggaagttatgtatcgggcaacacactggtatcgaatgttgctcaggtagttgctgataacttaatttcgccacaagaatacgcagtcattgag agttattgcagtaaatctgctctcacgaatggtaatacgtcaaaaatcattgagttagcgggcgataatgcgccagtacttagtgattacttcgatgactgggaagggatggttc cccctgatgccatagcgacatttatagcactgtttgctaaatctggtggcgtcgagaaattggttaacaattatctaagacagtcaacgctggagtcgataaagcaggggtatg aggaaaagtggaactccggaaagggacgtagaggcgaattttcacactatccgtatagctcgttatataaaagtgttgattttgaactggcaatttgtgcagaaaatgcggcgt acatgacgtcgattttcggcgaaagaattcaagttaaattacaaaaaacaccagattcattgcttgttcaccaagcgaacaagtccaagacgaaaaggatagagcttcgccga gttgatacaaagaatgtatcaaaagaccaacttctccgcatgcttgccaaagctgtagaaacgatttttactgatgtgtttggtgcagagtgtattcgatttgaaagtgaatttttga agaggtttggtgcttcagaacaggtagatattcagattacccgacagatagtcttggagaatgttgtccccctacttgaaaggcttcaagtgcgagaagaaggactttgtgattt acgttcagattacaaacgtgaacagcgtgttttggcgagcagtgatccttctgtactacaagatcgctcacgccttaacagcgtccttacgaagattaaagagactcttgaaaat aacgaaaaagtgcaatctttggtactcgaatctgtacgaaaagagatgagtaaacatttccaatactcgcctttcagcgtgccatttgagctgtttcaaaatgccgatgatgcttt gtgtgaacttattgaaatgcagggcgactcaaccaatgtactgactcgatttgatgtggtttctggcagtgatgggactcttaacttctaccattgggggagagaggttaactact gtaaaagttcatatgtcgcaggcaaaaaccaatttgaccgcgacttagaaaagatggtgagtctcaacgtttcggataagtcagatggaaaaacaggcaagtttggactggg ctttaaaagttcattgcttcttaccgacattccacgtttggtgagtggtgatatttgtgcagaaattcatgctggcgtattaccgagtgttcctagcaaaccagtgatgacggaactt aatcaaaatgtcgatgagtataaaattggaaatcgtaaaccgacattaatccagttgcctaaatgtgataagaagcgggcagatttgaagttggttttgggacgtttcaaaagta acgctggcattctcacggttttttcacgacaaattcgagaaatcaatattgatgagcagcgatttgggtggtcgggacaggctctccataatatccctgaagtacttgtcggtga agtgaaactgccaacaaatacttctgaagagtctaacgttatccttcgaagtaatagagtgcttattatcaataccgagtccggtcagttcctttttgctttggattctaacggagtt gtttctctttcgaatcgaaaaaacctaagtagcttttgggtgttaaacccgattgacgaagatctgaaattgggtttctgcatcaacgcgccatttgcggttgatattggtcgctctc agcttgctgtagataacggagacaatatcgatctttccagttcactcggcaaagcgttatcagctgtgttggtcaaaatgtttgcagcttcttcgaataattggaatgaatttgctg aagaggttggcctgggacaaagcagcacatttatcaagttttgggcgtcactttgggatgtaataacagcccattggccagcaaggcttggagagacgaactctaaagctga actgattaaacaaatgttcacagtggaagatggtctgcttgcgttttaccagagatgtgcggctcttcctcgaaatcttggtgtaaaggaagattctcttgttcaacttaaaaacgtt gatactggagcgaataaacctttgaccaaggcatttaataccttgggaaatcacccgatacttcaacggctatataaagaccaacaactcgtcgggcatgacacctttgagtttt tgaagagtatcgattttagaccgaataatggtgcgttaactaagctcgaattgatcgatttgattggacaggactttcctcacaatgaagtaaaccacgacagagcaagtttctat ggtcgcctatttggtaaaaactttgaaaagttaatgtcgaattttgaaatgacagtgactgagaaaaaggtgttggaagagcgtttttctgaattgaagtttctcaacaaaaccggt gtatacgtgactgcaagcaaactgattgttgaggggagccctgagagagacttgctatccaagtttgcaccagacagcgcgaagttaagtgaaaaatatgaccaagcatcaa tggacttggttagcttcattcgtcgtgacgtaagctatgacattcattcatgggctaagcaaataagatctgaagaatctaacaggggaggaaagcaggaagggttgtgtagct tccttgttgaaggcggctatttagcatcatcgcttctcagaaaactacagacggatcaccccgcgtttcttacaaagggacgttttgatccgagcgtattaacagaaaaatggcg ttggagttcttcaaaggcttcggctttcattagcatttggattgatacagaggaagataaagcaaggcacgtacgacaagcgcaaaaagagtttattccgaatgtgaccaatgg tgagcagatcctcgaaaacatcacgaactggtggaatcaatgtcgtaatcaaagcttaattgattatgacaaacagctctatgctcaaccaatgccttggaaggcaatgacag aggacttcgagcttgaaacgttagaggttcgtaaaggttggttgaagttgttctatttagggagttgccaaacattaggtttcaataacgatgtagctaatcggaatgttgtttcttg gttcgaggacaaggggtggtgggataaactagccgttgccaatggtcctagccctgaagtatggaaagaattaatggaagaatatcttcaaacagcacgcgttgatgagcgt tatagagtttggattcaagttcttcctttgtatcgctttgctactaagctcaaggactatgtcgctctcttcatgaacgcttcctttattgataatcttgatgatttgttaaaaccaaatag ttcaaacaagttatcaggctctggcatccaagtatctgagttaaaaggaacgctcggtattgggattaatttcattttacgagagttgcaaaggcaccaagttttggagcgtgagt attgtgaagatatccaaaagtacgcatttgttttgcctgctcgattacgaaagttactcaaaaaaatgggagcaggtttaagctttgacgcagagccagagaattcagagcgag cttacgactatttcgtttcggcattaaatagtgaaacccaccctcttcttaaggactttgacatcccatttagagtcttgttggctgataagcaagcgtttgaacgttgttttaattttgc tctagatgagcagtttgaggaagtatatggataacattatacgcgttattcacccaaaattcggtgtcggtaccgtcgaattcgaaaaagctgagacatctcttgtccgatttgaa catggttttgaggagtgtttgaaaagtgagcttgaggcggtcgctgatcttaagtccgatcttgtttctggacagagtgtcgctgcctctgaacttgcgttaaaaacattagcgca ctcactaaaaagtgttaatgaaaattggagtgttttttctaaatcgaacattaatttacttcctcatcagttatgggtatgccatcgagttctaaggcaatggccaacaaatcaactg attgctgatgatgttggtttaggtaaaacgatagaggcgggcttgattttatggccccttatcgagaggaaaagagtcaagcgtcttctgattttgacgccagcacctttggttga gcagtggcaccaaagaatgcttgatatgtttgatattcgtttgagtatgtatgcaccagaaaatgatacctcgcgcgtcaattactgggactcaaacaatatggttgtcgcttctct acctacgctaaggaacgacaagaatgggcgtttagagcggatgttaaatgctgagccgtgggatatgctcattgttgatgaggcgcaccatctaaattcaacggaagataag ggtggaacgttaggctttcgctttatacagacgttgattgaaaatgataagtttgaatcgaagttattttttacagcgacgccgcatcgaggaaaagaacacggattcttctcctta ttgcagttgctgagaccggatttgttcaacgttaagcaaatggatgagcgagaaatgcgcccatttgtgaaagatgtgttgattcgaaacaataaacaatttgttacggatatga atggtgagaggttatttaaacctctgtctgtgtcctcaagaacttacagttacagtgaacaagagcaacatttctatgacctcttaaccaagtttattgtatcgggtcaagcgtatg catcctctttgaattcaagggatcaaagagcggttatgttggttcttaccgcaatgcagaagctcgcttctagttcaattgcagctatcgagagagctctaaaaggacggataga gaaacataaactaggtaagcaacgtcttcaggatattgaagttcaacaggctgctttattagaaaagcgtgaggagtcagaatcgcagtctgaaagcgagatatacagtgatg aattagcgcaattagaactggaatttattgaaacgacaacgcgggttcaattgatggatgatgagctccctagaattatggagttgttgtctgcttgtcagaaagttggctctgaa acaagaattttaacaatattagatatcctagaaacggagttcaaagatagaactgtcgtcttttttactgagtataaagctacgcaagcgctattaatgggtgctttgaataaaaag tatggtgaaggctgcgttacttttattaatggtgaaaatcgtcttctgaatgtagagaatggctcaggagtatgtgttgattatgtcaccgatagatacaatgccgcgaagcgtttt aatgaaggcaaagtacgatttataatttctacagaggctggtggtgaagggattgatttacaacaaaattgtttttcaatgattcatgtcgacttgccttggaacccgatgcgactt catcaacgtgtggggaggttgaatcgatatgggcaagtcaaaaacgtagaagtaatcactcttcgaaatcctgataccgtcgagtcaagaatctgggatttgctgaatacgaa gatcgatttaatcatgcgttcggttggcggtgcgatggatgagccagaaaacctaatggagttgatattaggtatggcggatagcacattgtttaatgagttgtttacagaagca gccaatcgtaaaaactctgaatctctctctgcttggtttgaccataaaacaaaaacattcggtggcgagtctgtagtgcaaaaagtgaaagacttgattggtagagcagaaaaa tttgactatcaagatcttgaggctgtaccgcgtttagatcttggagatttaaaaccgttttttactcagatgctttcatttaatcaaagacgttgtaagtatgatgaaaatggtggtttat cgtttttgacacctcacgcatggttggggcaatttggaaccagacgctcgtatgagaaattgcattttgaccgcaaagctaaacagcttgattcagaagctgacatcataggctt tgggcatcccatgttttcaaaagcggttaatcaaggagagcaaatccctggaagttacgcgtttcttaacggtatagagaaagatcttgtagtgtttaaggttcaagatcaggtta cgggaaccgatgcatcagtaaaagtgagtattgttggactggtgctcgatgataatggcgattgtgaattggtcaaggacgaagaccttatcgggtatttaaacgagtatctta aaatttccaatgatgttgactctaaacgtacaccagaggatttagtgtctgttattcaaactgctaatgattatctaatggagaatgtgtcatcaattggcttaccatttaggctgcct aattctgaaccattaacggtattctacaaagcaagtaactaa (SEQ ID NO: 400) 38 ATPase_ gtcatagtcccttacggagataattcattgaaattaatatcttatacagcacatgtaaatagccgtggtgtatttttatccaatgaatcgttacaaaaataagatgcatgcccaccct GHKL- gttctgtgtgaacgctacgaccagctacggatttataccaaaagtaggaattctatatgtcacgtattaccatcaacgttttatggttaaccgtaccaatagcgcggaagtgggc DUF3684- atgagcgaagtagcagatcaacagcaattggaaactcagccagcgggtgatgacctcctgcaaggtgtcaaacgcgttctcaggcatgccgttcaggcgtacggggatgg DUF3883 gttaaaggtttatcaaagcctgcaaaatctcaacgaggtgattggcacggagtacggtaatcgggtcatttatgagttgattcaaaatgcgcatgatgcgcatacgtccgaaga acgtgggcggatagctgtcagcctggtgcttgaaaacctttcacggggaacgctctacatcgctaatgatgggcgagggtttcgccatcaggatgttgaagcggtcaaaaac ctggcgatcagctccaaagagattggcgaaggtattggcaataaggggcttggatttcgcagtatcgaggcgctgacgcaatccgtgaggatctattctcgctcaaatacga acggcaaggaccgatttgagggttactgtttccgtttcgcagatactgacgaaatcgcgcataatattcgcgatctcggtgttgatgacgcgatcagcaacgaagttgccaaa acgcttccccgctatcttgtgcctgttcctctagatgatcaaccggaggatgtccgcacttttgcccgcaacggtttctccaccgttatcgtggcaccgttagaaactgaagcgg cagttacgcttgccagaacgcaggtgaaggagctgaccaatcgcgatgttccactgatgcttttcctcgatcgtattaccgaaatcagtatcgaaattttatccccggatgagaa agccgaaaagcgcaccatgcaacggcaggaaaaggcgctgggaagtattcctgacgcgcctgatgtcagtctctacgaagtcgatataggtcagcggaaacgctttttagt ggccagaagcaatgtcgataaagcgcgcgtgcagcaagcggtgagcgatagcttattgactgcacctcagctaaagcgttggctgaactggcaagggataccggttgtttc tgtcgccgttggcctgaacaaatcaacagtaacttctggaagactctacaactttttgccaatgggcactgaggccgcttcaccgatttgcggctatatcgatgcaccatttttta ccgatattgacaggcgtaacacgaacatgagtttgcagctgaaccggctgttaatggaagtggctgcggaaacctgtgccgctgctgctttgtccgtcgtatcccgtgagctg gatataggtgcatctgcggtttttgatctgtttgcctggacgggggaacatcgtcgcatgatgcaaacagcactggaacggaaagatacttcgctcagcaaagcccgcctgat tccggtgatggctccgccaggaaaacagcaatggtcgagtcttgaagaagtcagtatctggccggaggtgaaatttgccatcctgaagccgaaagacgttgccagatacag tggcgcgcagttggtttctagcgaattgaatacgccgcgcatagtgcgtttgagggagataacaaaatttccctatatgtatcagtcattagatccttcggcgcagacactggtg aaatgggcagaagcctttgccctttcgctggtggaacggaaattctcccctgccagttggaccaaattctatgatgatttggtcaccttgtttgctgcggtaaaagtgaaactca acacacttgagaactgcctgatcctgtatgaccgccagggcaaactccggcccgcaggcgggcataacagtaatgaacacaatggcgtttttgtacgtcggcatgtatccag aggcgacaaaaagaaagataagcgtaccgggattccgttgccgccagcgattgtttctcggcgctaccggtttctggatgaaaaaatcgtgcttagtgcggcgacgttcaat gcgtttaccgtcgccgacctgataagagagtacgatccgatcaaagccctgtcagggctgaatacggccctgagtaataaggcgacagtcagacagcgccaggatgcact attgtgggcatttgaggtctggcgcagcagtagtgtcgttgtcgatgtggagctgaaaaaagccgatctccatattcccgtgcagtcgggttggtgtgcggcaagcaaggcta tgttttcatcctcctggacgccaacagggaaggttgtggaaagctatttaaccggcgcgatggggatctcgcctgactgccgtctggcagcgggtttgttattgattgagctgc aagactggccgggcgtcgtgcaaaacagcaaaaccgactggattaaattcctccgcgtgcttggcgttgcagatggattacagccggttgaatctaaggtaagagcgcgag catatggcgatagttggaatagctttttacgcaatggcgacgagcatgaggggtttgatagcgactggagggcagaagtaaagcgggcacatataagtttctaccatcctca gacggtctatacctcggaaggaaaaacatggcgattgcccgggcaacttgagcacgcaacattgccagacgatctgagggagctgttgtgtacgctgattttcgcctttctga agtcgcagactacggagttttttacctttgaggtcggtcgttttgagcgacagaattcgcaaacagactcccgtacgctgccaacgccgcttggcacttttttacgcactaaagc ttggcttgccagcactagctcactatctgaaggattgcattttagccgtccagatgcgtgctgggcttcgcgggagcggcgcaataaacctccgcgtttcctagaccatttgatt gagcacaacgttgatattattgaagagagtcaactagcggagcgcttgttttctgcgaaaattggcctacgtgattggaatcataccgggacggcgttggatcgcattaaaga actggtctacattgttccgcagttgaacgctggcgataaggcggatttacagcgggaatatcaacgaagctggcgtgatatcctcgacagcgacgaagctcttcccgacgga ttggacctgattgtttttcgccgtgggcagcatgaagtgctgcgcggcaacagcgatctgcctcctgcggtgattgtcaccagtattgcacaaaaaattgaagcacaaatgctt gcttctgcaggctacgcaatactcggtattggcctggatgagaccgatacactcgtctcctgcctcggtgatacgggacgattttcaccccgtaagattaatgacggcggagt gcaactttacctcgatggtaagccgttttatcccgatgagagcgatccgttgcttatctccttcgacatgaactggttaccggaaatcctggttattggtctggcgttactcgggg aaaacttagagcggggcgttcacgccaccaaggttgataagcagctgcgcgcaatcagggtacgccgttgtaagaccctctcttttgccgtgcagggcgatgatgccaccc caacggagtcgttcgtcagctattcctggccccatgaaacgatgccgacgctgattattgaagaggggctggtgtttaactggcagaccttagcgaagatttcccgcaacctc tcacggctggtggataaccggttacgtttcattgaaaccttacttttgcgcctcgcagttggtcgcgataatggctcgttgagtaaaccggatgacgttaccctggcttgggaga tgaattgcgatgttcaaacgatccgtgatcattacgcccgactgcgcacggacatcactcatgtgatagacatgctacttcctgtggtgacgtatctcaacggtattgagcttgct caggttctcaagcgggaatatgccttatctaggtcagtatttgatgtgcgtagttggatttcatcacatctatctgatagtgatatacctgctgaaaagctgctggacgtgtgtgaa acagcaaccgatcgggttgaactccgtaaaatgctgtcgtttgattttcagcaatttaacctggctctggaagcgttaggggaaacaccgctgtccaatgaggatgctctgcgc agattttttacggcctttgtcgggcagaggcgttcacatattatcgatcggttacgccgacactatctggcgacctttgataccggcggagatttgtcacaatacgttcagcataa atctttgggcttcatttccttcaactctgaatggattttgacacatgaaaccttggaaaaggagatggtggactcgcaggttgacacgcaacttttgagtgcgttaggaccggac aatggtgaagagctgtctgcacttaatacgttattagacgcgaatcgtaaaaatgtgcgcgaatttgccatgcaggctcagccgcgagtttccgcctggtgcagacaaaatga tgtcccggtgaatgctcactggcagtacaacgatcctcaggcgttttgccgacagctcgaaaataagggctttcttgatttccggctctttgagccggattcactaccggattac tgcctgcgcgccgggctatggccaccaacgatgccgcccagcctagatcaggatgtgctgaatatcgacatgaggaaagtttcccaggaaaaagaacgcgctgagcagg caaaacggcaacaggaacttgagcgtcgcagtatctttttttccgggcagtcgcttgatacagccagcccgctatttgccgatcaacttcgggaactggcgagtaccgatagt agttggcaggtgcgcagccagcacaagacgcaggccttgatggattttggcgtggtgacaatgcgtcaggcgagcggcggaggttgcggaaaaagaaccgggcgtgc gtatcgggagcctcgattgacacctgcacagcagcaagccatggggctggcgagcgagtggctggcttttcagtatctgcgcgatcgctttccggattatacggatgaaact tgctgggtatctggtaatcgggcttcgttttgcgggggcgaggaaggagatgattcggccgggtatgatttcatagtgaagacgccgaaagtggaatggcttttcgaagtcaa atccaccctcgaagatggtcaggagtttgaactgactgccaatgaacttcgtgtggcaagtgcggcggctaaagacgcaagccgacgttaccgaatcctctacgtcccttat gtgctttcgccggatagatggtgcgttatcgaattaccaaacccgatgggcgataaaacacgcaatcacttcagcgttgtggggcatggatctttgcgtttgcgttttcagcgg caggagaactgacagcaaccctgctcagggaaacctgagcggggtttttaaatatggcctctatggataggggacactttctgcagtaaatggataataagaaagctaacgtt gaagtctgattctgccattttccacgacagctaaatgctggatcttctttttaggatcccaacatacctagcagtaggacgtaagtatgcttgagttcatctcgatatccttgtttctg aatgacaggcattactatttcgtgggtgtgaaccgatgaagggggtgatgtcattggaaaataatgaggtagtagcaaggagaagttctgctcttatcatagtgaaaaagcgg tttgggaacaaatcggaactgata (SEQ ID NO: 401) 39 TerY-P +  accttcttcgctaactgatggctaatgaggccgtaataaaacttaccttacctgtaaatacttttactactcattcagatcagaatgaagaggtttattttatttcattgaaaattaataa helicase ataaaaatattggcacggtatgtgcttatacagaatgccattttactaacaaggaatttaccgatgtcggaattaaaaaaatttcaggtacaaacagcacgtgcattgccggtgat + HEPN + tgtgttggcggataccagtgggagtatgtcaacagatggcaagattgatgcacttaatctggggctcagggaaatgcttgatagttttaaacaagagagccgcctgcgcgctg ATPase + aaattcaggtcagcgttattacgtttggtggtcaccaggctgaagttagcttgccattgacgcctgctcaccagttgcaaagtattacctccctggaggcaaatggcatgactcc DUF2357 actgggtggcgcactatcgctggcctgcgagattattgaaaatccaacgcgaaaatttcagccgattatcgtgcttatctccgatggctaccctaacgacgactgggaagccc cttttgctcgcctgattcacggtgaacttactgccaaggcctcccgttttgccatggctatcggtgcagatgccgatgaatcaatgctcaacgaatttgcaaatgatcctgaggct cctctcttccacgcagaaaacgcgcgtgacattcgccgttttttcagagcggtaagcatgagcgtcagcgcacgaagccgttccgcaaccccgaatcagtctacaccgttgc agatcccgagtgctgatgatcaggactgggagttctgatgcgcctgtacgcttctggcacctcggtacgtggtcccgcacaccaacaggatgatgaacccaatcaggatgct gtagggatttacggtctgcgtggtggctggtgtattgccgttgctgacgggttgggtagccgatcaaaaagtcatttgggttcccgtaaggcagtcaatctgctgcggcagatc atgcgcggtgcggagatgctggtcgctgccgaagtgactccagcgttacgtgaagcttggctaaaccactttggtactgactatcacgattacgaaactacctgtttgtgggc ctgtgtcgaggcgtcgggccatggcgtgatcggacaggtaggcgatggcctgctgctggtcagaagtgctggggtgttcaacgtaatgagcacaccacgacggggttaca gcaatcacactgagactctggcacagcgtgcacatttagatagttgcagtgccagagtggcattaacccaacccggagatggcgtactgatgatgaccgacggtatcgctg atgaccttatcccggatcagctggagtcattctttaatgctatctaccaacggatacggcaatgcagcaagcgtcgtacacgtcgctggttaacacaggaacttaacggctggt cgactccaaatcatggtgacgacaagagcctcgctggaattttcaggatggactgaccacatgacatcaatagtaaaaacgcaaccaaaacgcgtggtgaaggataccag gggatcaagttacgagctgacagaggtaattaaccgtggtggacaaggcattgtttaccggacgacctatccgcaaaccctggtgaaaggttttactaatcaggacccacag gaacgccagcgctggcgcaaccatattacatggctgctcagccaggatcttagcgacctcaaacttgcacgtccattaatacttctggcggagcctcgctttggttacgtaatg gagctgatggatggcctggttccattggatagcctgttgaacagctttataaacgcaggggaggagtctctggcggattatctgcgtcagggaggactccgtcggcggattc gtatcctttgccagctggcacgcacactcaatcagcttcacgcacgcggcatgttgtatggtgatctctcccccagcaatatttttgtttcagacgatccaagacacgcggaga cctggcttatcgactgcgataacatcagcctgacagcccatcacaatctgactctgcataccgtggactatggtgctcccgaagtggtcaggggagaatcgttactgtccagc ctgaccgatgtatggagcttcgccgtcattgcctggcaactgctgactcataaccatccgtttaaaggggaactggtcagtaatggtcctcctgagatggaagaagctgccat gcgcggtgaatacccgtggatcaatgacgcacaggatgacgcgaatcactgcttcgtcaatctgccaccggagctgattgcacatagtgcactgccaactctcttcgctcgc tgctttgaacagggaaggtttgaacctcatgagcgtccgggtatggctgaatggcttgaggcgctgagtgctgtggatgagcgtctgtttacctgtgacagctgtgggggaa gcacgctcctggcagaggaagcagaaagcgcgaacgatgccgtttgcttttactgtgacagtcccgccgaccgcctcctggtccggtttagtgaatatgtgactgagcaaca agacggctcgaatccagacaccaaaaccttgattgccacagggcgaaatgtatggctgcagccaggtcaccgtgttgagttaaagcgcctgttgccaagttttatctatgacc actggccatcagatcatctgcagattgattacaccgcccgcgggattgggatccatccgttgcttggcggagagctatacctacaacgcggtgaaactatcaaaccactgcg ggggtttcagggactcaaaaacgagctgcgcggaacaggtggggagccttggcagatccatatcggcgatcctggccagtcgcatgtaatctggcagttcacgtggtgac aatatatgaaaattaacgaatttccactgatgtccaaagatattctgctgctggaaacggataaaggaaccaccgggttccggccaaagcaagctatcacctttcaggcgtatg gtgagaattggctggcggtacagggggatcattgcgtaagtgtccagtgctcccctggtgatcacgaactctttagccgtctggtgatgagggatcaggttcgttggttgctga ccagtaaagcggaaaaacagttgcgggttcaatattgcacgcctgttgaagtcacaccaatgcagctcgagttgggaattgatgagcgaattgcggaagaccttttcgcgaa aaaacagatcaataacaacgatattgagcttgcctgccgctggtttgaagagacttttattgtccatagcgagtcagaaagtgactggttaacggttggccgttttagcaatcat gcagccaaaggtggttttcagctattgggaaacggctggcgtgcggatgttgagcgcaacccggaccacggctttcttatcagacgtattactggtcatttaagccatgatac aggcttctcgttgctggttggacacttcgccttccgggatatgtcagttgctgcggtgctgaatagtgcaacccagcaggcaatgctcgatgccgcactgcgagacagtgcc agctaccttgagctctggaatctctacaacgataaagagtggcagagcgagttgaaaaaggccgaaacgctgggtgttctgcgctttgttgcgtgcgagggcaccgaagct ggccgggaaaatgtctggcatctgactccccgaactcctgaagaatacagagaatttcgccagcgctggcgcgcgctcgatctgcccgcaggcactcaggttgacctggg cgctgaaactcccgactgggcagaagaactcagtaccgaagaggatacggtactgaaaacgccgcgcgggaagatcgagttcgctgatgaatatgtggtctttacttcagc ctcgaatcgccgagacgtgcgccccgcaaagcctgaaggatggctctacctctcgttggcaggatatcgcacagtcggcaaacgtcgcctggcggcaaaacgtgccattg attccggtaaacgcatgccacagttgaagtggctgctggaaggggtcgttgttcctgctgctcggcgtcgcaacatccaggggatgacaccctacgcccgcgaaatctttaa gggtggcaaaccaacgggcaaccaggaactggctgtgtttaccgctctgaacacacccgacattgctatcgtaattggcccgcccggaacagggaaaacccaggtgatc gctgcgctacagcgacgtctggcggaagaggcccaggaaaagaatattgctgctcaggttttaatcagcagttttcagcatgatgccgtcgataacgcgctggaccgcagt gacgttttcggtctgcctgcatcacgtgtgggcgggcgtcgtgcttcagtagaagacgagtcaccactggatccctggttgtctcgccacgccagtcatctgcaggagaaaa ttgctgaccagtatcaacgctacccggagttgaaaacaattgccgacctcacttcccggcttgccctgcagcgattggcaaacgacctgcctcaacaacgggcagaggcttt ttcgcatatttatcaggacgtcaattccctggcagagaaagggctggtcacggactcccggcttgagatacgtctgcaggactatattaagcatctgaaacaggatggtgttgc tgaggtcagtacggtgatgaatgtagcagtattgcgccgcattcgcgcgttacggaccactcagactgctttctcagatgatggtgccgatcgtgcctgggatttgctgcgatg gttgaagcggaatgttcctgacatcgacgctgagctgacctcggtattggaaatagctgccgatgccagagaagttcctgtggcactcgtcgagtgccagcaacagctgctg gagcgttttctgcccgattatcgacctccggccctcaaaaataagatcgatgatgaaggactggctctactgaatgacctcgacaagcatctttccgacttgatgcatcggcgt aagcagggtgtggcatgggtgcttgaacaaatggccgatacgctggagatggaccgccgtgccgcacaggaggtggtggatgaatacgccatggtggtgggagcgacc tgccagcaggccgccgggcaacagatggccagcctcaagtcggtttcaggagtcaagagcagtgacattgagttcgataccgtagtcgttgacgaggctgcacgcgcca accctcttgacctgtttgtgcctatgtcgatggccacgcggagaattattctggtcggcgacgaccgccagcttccgcatatgctggaaccggatattgaaggccagttacag gaggagcatcagcttacggcactgcaactggctgcctttcgttcaagtctttttgagcgcatgaggctaaagctactggacctgcaaaagaaagataatttacagagggttgtg atgcttgataagcagttccgcatgcatccactgctgggagatttcatcagccagcagttttatgaaaaagaagggctggggagagtggaaccaggccgtagcgcagagga atttgtctttgacgaaggtttcctgagagcgctggggccactggcgtcggcctatcgtgacaaggtctgccagtggatcgacctgcccgcttctgctgggctggcagaaaaat caggaaccagccgtatccgcaccattgaagcggagcgtattgctcaagaggtggcacagttactgaaagccggaggagaaaccctctctgttggggtaattactttctatgc cgcacaacgagaactgattatggaaaagttatccgaaatcaggctggaaggcgtgccactgatggaaaaacgtaacggaacctatgaaccgcatgaaaactttcgctgggt gcgcaagtaccgtgctgacggttcgttcagccaggaagagcggttacgagtaggttcggtggatgccttccagggtaaagagttcgatgttgtactgctatcctgcgtgcgc acctggcgtcagccgaggtcctcatctgccgccgatgatgcagctgccagggaacaaatgcttaatgaactgttcggtttcctgcgtctgcctaaccgcatgaacgtcgccat gagccgacaacgacagatgctgctttgcttcggcgatgcagcactggccaccgctcccgaagccctggaagccgcgccagcactggcagcatttcataccttatgcggag gcgttcatggcactcttcgctgaaacaggtatttatattcaatctgccccacggccgcagggtgaagcgcgcccgatactctggccagtcaggatacatagggtgctctaccc ggaaagctatcaggctcagatcaatgtcttccaacgcgcaattctcggattggtacgagcgcgcgtcgtacgtccgaccgaactggcagaactgaccggtctgcaccctaa acttattacgcttatcctggcacaaagcgtcagtaatggctggcttgagtccggtgaagataccctcacttcagcgggtcagcggttgctggatgatgaggatgacggtattg gcaaacaaaaatcaggctatgtattgcaggatgctgtaagcggaaagttctggccgcgtctggtcagcacattgaagcaaatcgaaccggtcaatcctctggataaatatcc gcaatttatactgaccaggaaaacaggagcgacactgcgacctttcctgatgaatgccagccgatcgccactgccgcctctggaacgcaaagaactgaagcgtgcctggc gtgactatcgtgacgactatcgtgccagtcagcaactgggcgtcagccgtttgccgccacacattaacctgcacggtctgcagcagctagaggaaccaccgcagtgcgca cgaatactggtgtggatcaccactgatcgagagagtggacagctatggagtgccgcggacccatttgctctgcgcagtaacgcatggtggctggacctgccttcaatcgtg gaaagtgactcccggttgcaaaagatactggaaccgctggttgtggtgccacgcgccgcagaacaaacctaccagcagtggcttgaggctatcgcgcacgaaactgatttt aagatgatgagtcaatacccttgggccgaacgtttaccggatgtgaaacgttatttggtggcgctattggtacatagagggaggatcgagcagggtgataacggtcaaagtg agctggatgccgcactgaacgagtgccagaagctgctggaggttgttatgcagtggctgattcgtcgtcatccagccaacgcggaattattacccaagggccgcctggata aaattaatacggccaacttgctcaaggatatgaaaataccagcatttaccccatcagttattgatggcctatctggccagataatacgtcaggtgcgctacgcatgtagcaacc catccggctcattgaaggcactactttttgcagcggctgtcggtgcgaaccaggatccacagcacccattttggtcactggatgactcagcgttacaactgccaatgctgctgc aactggcggatcgtcgcaacaagagtagtcatggacagagtaaatatcttgataagccggtacaggaactcactcagcagatggttgaggaaagtatcagttatgcattgag ttttaccgaacgttttaaggaatggatgtaatgtcaaaacgagcacaacagaagtatacctcacctattcccaagcagagaaatggctctgctgcggcatctgccatcaccaca cttcagaggtctgcaatgacaaccgagtcgcagattattgccgcagcccatcacacagctcagagtgaaaagcttccaaaagatatcgattttgatgtgacatggctggaacg tatcagtcaacgtcttcagcaggaaggagatgatcaatttgtctcctggcttcagacatttactcttttctgccagaaactggcgcaaagggatgaagagacgcaagcagcag cacagcgtattcaacagctggagctgacgctggaggagcaaagcgaaaagttagaacaggaccgtgttgaacatgacattcaagctcgggaactggcggaaaagaaag ccgggatcgtgagcaaagaacgagagctgaatgaacgtgagctcaacgccaaagcgggcttcagcgagcagaatgcagcatcgctgcgaaacctgacccagaggcag cagttactcgaccagcagcatcaggaggatattcaacagctcatcacacaaaagcaggggttaatgcgggaaatatcgcaggccattgtccagttgacccagttacaaatcc agcaaagcgacgcggaggcacagcgcagcttgtcactggaccagcgcgaagaagacatcatcaggaaagaggaggatctgaagcgcgccagccgtcgtctggaacg agacgagcggtctgtagaggcggagagacaggcgctgaacgaatgtttggctgaagcaatgcaaacagaacgccttgagtttgaaaagaagctggatcagaaagagcgt cagttcgacaaagctcaggaacgggtgcaaaacctcagtgaacgcctcatggaatgggaggaacttgatcaggcgctcaatggccaatccgcttcgcaaatgctgaatga gctggataagttacgcgatgaaaaccgcgaacttaaaagtcagttcgcgcacactaacctagcagagctggagcgcgagaacaaatctctggccaacagcaaaagcgctc ttaaaaatcagctggaaaatctgcttgcagagatggacaagctacaacgcgaggtggatcttcagcgagtggctgcgacccagcttgagacagtggcacgggagaagcg gcttcttgagcagcagaaacatctgcttggtcaccagattgatgagattgaagctcgtattggcaagctgaccgatgccagcaaaacccagacgccgttccctgccatgtcac aaatggacgagaagaatgggctcaacgcaaaacgtgatcatcgagaggtcggtgacctgaaaaattttgccagtgagcttcagcagcgtattgctcaggcggaagagagc gtgcagctattctatccactggaaagtatccagctgctgcttggtggtctggcgatgagccaactgcacctgttccaagggatcagcgggaccggaaaaaccagcctcgcc aaggcctttgcaaaagcgatggggggattttgtaccgatatttcggtgcaggctggctggcgtgaccgcgacgatcttctaggccactataatgccttcgagcggcgctatta cgagaaagactgccttcaggcactctaccgtgctcaaacaccgtactggcaggacacctgtaatgtcattcttctcgatgagatgaatctttctcgaccggagcagtattttgct gagtttctctcggccctggagaagaacagccacgctgatcgaaaaattgcccttaccgaaacagctttactcaatgccccggaacggctcgttgaaggacgccatattctggt accaggtaacctgtggtttattggcaccgccaaccatgatgaaaccacaaatgagctggccgacaaaacctacgatcgtgcccatgtgatgacactaccgaagcacgacac tcgctttcctgtcagggagatggagaaaaccagctattcgtggcggtcactgcatgaagcctttgctaaagcaaaaacgcaacatgcggaaacggtcaggaacatgctgga gcaactgtccggtcatgaatttactcacctgctggaaacagattttggcatcggctggggcaaccgttttgacaagcaggcgatggatttcatcccggtgacgatggcctccg gggcagaagctgggcgcgcgctcgatcatctgctggcgacccgtattatgcgctcaggtaaggttaccgggcgctataatattggcttggaatcggtcacacgactcaaag aagaacttgaatttttctggattcaggtcggtctgcaaggcgatccggttgaatctatggcattgctggaggcagatatccgccgtctgtcaggtgcgcgctgatgtggcacga tcgtttaactggtaggcaacatgcacatcttccgcaacggattgatcacgggcgttactcaatcgaggcttcccctctgacgctaaatggacatacaccgaattttttcggattg ctggtcagcgacggcggagcaaattgtcggctggacgatacgctgcataacttcattcagcctccgcccggccatgaagaggaaacccggctgctggaggaagccatca ccacgatcggtgccgcagttgatgatgacatcagtgtgctatcgccgctgatgccagcagctattgtcgataatcaaagccttttgctacattcgaacgtgcactgctggagg tgatacaaaaaggacatttacagcatatatcacagcggccgcggctggatttacgttatgacgatgaggtggccgacgttgcccgcgtgcgtcgtctggcaaagggtgcact ggtacatctggcgtcacactccgaatgctggcagcgtcagacactcggcggcgtggtacccaagcagatactggcacagtttagcgaagatgatttcaatatctacgagaat cgggtttatgcgcgattactggataagatcgaacgtcatttgtatcaccggctgcgcactttgagaagcctgcaatctactcttgcccaagcactggacttctatcaatctcagg aggtgaattaccgcctgcgcaatgctatttgtcagttgtgggggatgacttacgatgaggatgcgactgatggcgcatctcggcagctcaacgccacattggcgacgctgga gcaaattttccgcatcatttccggtctgcgacaaagcggcctctatctgcgggtaagtcgtactgcgcaagtgacaggtggagttcatatgacgaatattttaagtcacgatcct cactatggtcatttgcctttactatgggcacagttggctgacggggctcagcccgaaaatttgcctcaacaacgcctcagagtgaaccagagcctggcagctgcgtatagca gctatgccgggttggtgttacgccatgcgttgcagccctggttacacggtaagagtgaaggaagctgggctggtcgcactctgcgacttcgccagcaaggcatggaatggc tgctgagctgtgattccaatgacagtgccagtgaagagacgctgttgtctctggtgccatttctgaaccaccagcaggtagcggtagacctaccggaaaatcggtatatcgcc tggccttgcgtggggcatttacagcaggcattacctgataaagagggctggattcggctttcacctttagatatgtactgtgtagagcgttttggcttactgatagataaaattctt agccgggaattattgcgaaactttgcccgtccggttatccgtattccccggtgcgtattaccacttgctacaaaactgtcttcactgacagttgatcaacagttaaatcagataac actgcatggggatctgactaaagctgagctggaacaattaacctctcatttaatcaacaacaatgctagcacacaggcagaggaaattacgctgcgataccgggaatggcg agcattgcaacagtgccctgtctgcgaccatacaaccgaactggtttatcaatatcccggtggatttaaaaccctctgtaaaaactgcaataccgctcgttatttcagccagcat gaaaatgcacacttttttgaacaaaccagaacagtagaaagagaaagtaaaaccttcctggctcaggggcggagagtttttaactttcagttttagcagggtttttacgactcgc tgcatttttaaagagttaagaataatgaaacttcagggcatcttttatatatcggtattacgcaaatcagtagtttcggttgcgcgttttgtatacataccggcaagtgtccaatcaca gtgaatagccaaaatcgccgggagcacgttcggtcagcctgcggacatggtttttatcacgt (SEQ ID NO: 402) 40 Kinase- ggattcaccattatagtgacatgttcaagatgatgatatatctttgaaaagtgttctctttgcgaacggtatagaatttctagcgttacttttcataattacactttttagggttaggcag helicase gcacaatctatgcgctgtcttagataactacatccatttttactggactaccaccaacaaaaatttagtggtgcaggagaaaacgtgaagtatcagatagtaggtggtgctggcc tgcaccgcagcgaaaccaaaacagttgatatgatggttaagcagttaccagatagttggtttggctatgctggcttagttgttactgatagccaagggtcgatggaaatcgatat gctaattattactgctgaccgtctgctattagtcgagcttaaagagtggaatggtaacatcacatttgaaggggggaagtggctgcaaaatggtaagtcacgaggcaaaagtc cctatcagatcaagcgtgagcatgcactgcgactaaaagatttgttgcaggaagagttatctcgtaagctgggttactttttgcatgttgaggctcatgtagtgctgtgtggcaca gctggtcctgaaaacttgccattaagtgagaggcgctatgttcatacccgtgatgaattcttgactataggtaacccaaaaaattacgaaaagctggtgcaacacactaacttttt tcatctttttgaagggggaaagcctcgaccaaattctgatgaggcattacctataattaagtccttctttgaaggaccaaaagtcaggcctttgccactaaaagaaagcggttatc ttgcgaacgataagccattctttagtcaccctcacatggtctacaacgaattcagggctacccacaaagacaatagtcaacacagaggtctgctacggcagtggaactttgat gccttgggtgtagcaaacgcaatgcaaacattgtgggctgagatagctctgcgtgagactcgagtcggtcgcctagttcgtcatggcagcgcaactatgcaggattatatgtt gcgtgctgtaagggaactatccgaggaggatataactgatgatgcccgtgagctgtatgagttacgccgtagttttagccgattagatgagattctagatagcgaagctgacg gatggagtaaatctgagcgtattgatcgcgttcgtgcattattagctccattctcggaattacatagcttgggtatcagtcattgtgatattgacccgcacaatctatggtacgcag gggatcagaagagcattgtcgttactggctttggcgcagcctcactggagggacataatagcctagagtcattgcgtccgacattgcaaagtgctccatatattttgcccgaag atgcttttgaagaagcagttgagccctatcgcctagatgtattcatgttggctgtaattgcttatcgtatttgttttgcaggtgaatcattactgactcctggacagatgcctgaatgg agagctccattaactgatccttttagcggtattctaaatagctggtttgagcaagctcttaaccttgagccaagtaaacgctttccacgtgcggacataatgctcaatgagtttaat gcagctactaaggaacatagccaagaatttgatgaagctaaccagatttatcaagaattaaagcaaaacaaattctttcgcgaagggatgaacagcgttggtgtgttaattgag tttcctccacttcctgaacagttgtctatggtttactctgctcttgctgctattgctacgactggcagcatcagttatcactgtgaacaaggtgggaaagctctgcaggtaaaattgt gggatggtgttattttgacccctcaacaacctggtgttaaccgccgtatccacgcttttaagcaacggatcgataagcttacgcatataaatctgccaactcctaaggtgcagtc ctatggactattaggacaaggcggcttgtatgtagtgagcgagtatgtggatggcctaccgtggtcacagtttattgctgagaacgtgttagtacaatcccaacgttttacaattg cggaaaagttgatcaacaccattcatgcttttcatgaaaagcagttacctcatggagatctttgcccagagaaactgctggtacaagtcggggagcagacagtaattactctga ttggattgcttgaattcagtgatgaattaactgcagataatcgctaccagccagagaatcccgaaagtactgatgcttttgggcgagattgctttgcagtatatcgtatggtggag gagctatttagtgaagatatgccagtactggtgcaggctgagctagaacgcgcaaaacaaaccgttgacggtatacctatcgcgctcgatcctttgctgcagtcaattcgagc accggaacaagctgagattaatcaagttgtggcgtctgagtcacaggataaggtaattcctgtttgctggggcacagatgattggccgcaagaagtgaagcttctagaacaa aatgatgggatctattattttcaatgtaactggtcatctaacccacgctttgcgcatgaattgcgttgttacatcactggcctaggagagcggctattgatagacttagatcctgata atcgcactattaatagaatagtgtatgaaaaaggattatcgatcgaagaaagtataaaggctggtaaatattcccaggctaaaattaatactcaactttcattacaacgtggctca cttaatcagcgtaatacttttattgaactactgtttaacctcgagccagtaattgatgccatcattgagcgagctaatcctaatcaagagatggatgaagatgacttcgatagtagt gagtcaagcccaattgagttatggcaggcattatctgatacagaagtagacctacgagatatagtcaacatcgactctactgactttcaggaatcaccgagtggttgcttactct acccatatactacggaatccggtgctgacctcagctttgaacttgatgataagatcattgtttatattaaagataagcgtgaatcagtgcaattaggggaattgcagctaagtgag actacgccgagtctattggctattcgctttgattttgatgctgctcgtaagcgaattagtagcggcagccagctacaattggaatcgatccgtgacaaatcatcaagagagttgc gtcaaagagcccttcaacgggtaattgaaaacaaagcagagatccagcatctgccacagtattttgattaccaccagaaaccctgcatgcagcaaatgcaaccgcggccat ccgcggagacattacgcgcactttatgatcagcctggacaacgttttaatgaacagcagctaatggcatttcaacagttggtcgagtttggaccagttggagttctgcagggac cacctggaacaggtaaaacaacatttatttcaaaatttattcactatctgtatcaacattgcggtgtgaataacattcttttggtcgggcaatcccatgcctctgttgataatgtagcc atcaaggctcgagagctctgccatacgaaaggaatggaactggatacagtacgtattggtaatgaacttatgattgatgagggtatgctaagtgttgcaactaaagctcttcag cgacagattcagcataaatttcaccgtgaatatgatctgcgagttagctccctaggaaagcgcctagggatggccccattattagtccaacagttatgtcagttacatcgtacgc tgaatcccttgatggtgacatatggccaatatagccgtgagctggataaagtagaacaaataaagagtagtagtattagtcatcaagagcgactggctgaattattagaacaaa gcaatcagcttaaactgcgaacacaagaaattattaactcaatattcgatgacagcttgctgaaaactcttgtctatgatgaaaccttgataagacagttggctgagcaagttgc catacaatacaattataacaatccagagaaccttgaacgttttatgcagctattggaaatgagccaagagtggatggatgtattacgcggcggcgaggctggatttgatcgattt atgttcaaaagtaagcgattggtttgtggaactcttgttggtgttgggaatcgtcgactagaactagctgagtccagctttgattgggtaatagttgatgaggctggccgagcac aagctgctgaattgatggtagcgctgcaatcaggcaagcgggtgctgttggtaggggatcataaacaattgccaccattctatcatcaacagcatcttaagttagcctctaaga aattagaactcgggaaagggatcttttatgagtctgattttgaacgtgcttttaaagcaacaggcggcgtaacactcgatactcaatatcgaatggtagaaccaattggcgagtt agtatcggagtgcttttacgctcaagatatcggtaaactgcattcatcgaggaaagtctcgccagattggtattccaagttaccaatcccttggaacaaaactgttacttggatcg atagttcgagccctaatgaagcaggtgcagaagaacataagggtaatggtcgttactataatcaacgagaagtccggctactgctagaggctttgcagtcattgtcgagtgat ggctgcattgcacagcttgagcaaactattaccacagaacagccatatcctattggtataatcacaatgtatcgtcagcaaaaagaggaaattgacaatgctatcagtcgggct gaatgggctgcatcgttacgtggtttgatcaagatcgataccgttgattcatatcagggccaggaaaacaagataattatcctcagtctggttcgcgataatcccaacaaactac aaggtttcctgcgcgacgcgccgcgaataaacgttgctatttcgcgagctcaagaaaggttattgattctgggagcaaggcgtatgtggtcaaagaccaataatgattcagca cttggaaacgttcatgaatttattagtaaacaggttgcagtagatgaacccaactaccaaatcctgtgtggtcaaagtctgcttggagataacaactaatgtcagaaccacgtct gggtaatctgattaccgttttactacctgcgcgtagttacaagatcaactgcgctttgaccactgaaaaactgatgcctggaattgaacagtttgcatgtcgcttgctgctgattttt gatcaactctatcccagcgagttacagaattactttggtctaactgatcgtgagcgagaggtattgcttgatgggttgctggctaacagactgatcaacattaatcctgatgggc atattgaggctagctcattcctacgtaagcatgcagctaataatggtgggaagccaagtttagttaaatatcaagaatgtacggaggaagttgcattcgatctactaactctttcg atatgtaaaccgcaaccaaatcgtcgttttacttctggactgccagagctattgccgcggcatcagatcgggggagatgctgctgcggtaacagaggcttttagttcccagttt cggcaccatcttttgctcagccgcaacagcgagtatgagcgtcaacggactaaattatataagataatgggctgtagttcgcatgagatggtgcagctcccaatagagataga ggttagctacggtgtttctgctgggagcattgagccgcagaaatttactcgttcctatgaatatttaggtaacacccggctgccgctttcaaacgagctggaagctcatatcgca gattttttgggagaacataaactagatgaattcggtatcgactgtgaagatttctgtaaactagcaaatgataaagtgttgttacaatttgctaatggttataagttcaactattccgg ctggatagaggctcgtgaacaacgtaaaactggctacggtacttcattgactaccggcatgttaggggctgtttatttgccgcacaattctaagctgttcattagtatgttgcataa tgcattacgtgattatataggtaaaacagctccaaaagcgctgtggtatagcagtaaagtaccactgtggggagctaatggtagtcaactttcgcgttttactcgcgctctaggc gatatacttggcaattatgccgatgataagattgctcgcatttcgcttttacactcaagtgcagatgaaggtgaaaaacgtcaagagcgtaagcggcacttaggtcgttttcctac cggtattggccttacttcagaggctaaatttgatcgtttggagatcctcttaattcctgatgtgattgctttggtgcaataccacggtcaacctaattctgatagtgcattaaccctgc cgattggttatataactgttgagccagagcgtttagaattacttaaaaaactaatgattaagcgaactgaaggggctgttgcaaccattacttggtctgaatcaaaatttgaaaatt tagcttcgctattacctgttgagtttctgattaaactgaataagaaaagcggtgaagatgtggatgctgcaataaaaaaaatgcagatctataaccgtgctgaaaccgcacggg caattttatcgctacgcaagtagcatttatattgcaacgaataaatttttctaggttgctatgaactagctaaagggcaacaaatagataaacggcgttattcatgtcaaatgagat aatgttaaattgatagggatttataccccgccggccattttgaatggtcggagttgttataaacgtta (SEQ ID NO: 403) 41 Helicase- ggggcgaaaaggggaatgccggtcattgccggacgagtgcaccttaaaatgtgcggcagggggcgcccgcgggctgatccatttggcagaatggccgtgcatgcgacg DUF559 + atcgagcgcgggagacggctgaccctgatggacaaacgcgctttgagcgagcgggacatctgcactaagttcatcacgtcgtggcttgacagatgtttgccttgaccggtc SMC + gaatagccccattcggggccgtgtactttgcaaatgggccgaggtgcccgaaaaaccggtctggagccaggacaagaattacagtgcgcgaaccccaccggttactcac McrB + agcccgcttattggagttgatcgaaacccatcccgaaggattgcgactcgacgaggttcaggcgcgtacgcgtgttgaagggtgtcgcgcgggagtcgatgatctcgcag DUF2357 + cagcgctactcgatctccagcaccaaggtcttgcacatataaacgcagcccggcgctggtttccgaagcgggcggcgagtgtacgaccatcctccgcagtcactggttcgg ATPase atgacgtggcgggtgcagggctggtgctgcaggcgctaccggcgcgcatcactggcaacgatatggcggtagcaccagcacctgcattgagtgctaccggcacctcgct caagccgacttggggcctgttacgcagcctgctgccgtattacgccgaggcgctagcccgcaatgaacgggcgttgctactcggaacgcctgagcgctacggcgagcag ttcctgctcgtggcaccacgcggccgatggtggccagcagcagggttaggctacgggctagaactctcgcgtacgcatctgccggttgcttttctcaccgcgttagcccgac gcacgcgcgaaccgattcatgtagcctaccccatcgcgctggtgcggccccgcgacgccgcgcgcagcccctttctgttaccagtggcaactgtggcagcggactggac cctcgacgccgagaaactgcgcctgaatctgccggcccaaacgccggcgatcgaatggtcgtgggtgcgcggacagcgccagcgcggacgccagattcgcgagttgct cgatgcacttgatgtcaatgctgacgacgaagtctggcgggcaggctccttcgtcgactgggcgaccttcgtcgatcgtctcgctgcaaccacccctaccgaggtgcgcac accgctcgatctcgctcagcccaacaatgagttggattgtggccaggcgggcggtatttacggggcgttggggctgttcctgtcgagcgaattgcagttcgcgcgcggggc ggtgcgtgatctcaagtccatgacgcagtggtcagatgacgagctggccacaacggcgctggctgcgtgcttcagcgatgccatccacaaggcaccgaatccggtcatcg ttccggtgctggagccgcttgtgcttggcgaggatcagcttgcggccgtgcgtgccgggctaaacgatcggctgaccgtggtaaccgggccgcccgggaccggcaagtc acaggtcgccgttgccctgatggctagcgcagcgcttgtcggtcgcagcgtcctgtttgccagccgcaatcatcaggcgatcgacgcagtcgtcgggcggctggccgaag tagttgaagaccggccgctggtaatccgtgccaatgcgcgcgaaagcgatgacagcttcgactttacccgtgcgatcgaagccatcctcgcgcggcccggtggtgagagg cccggcgaagggctggctggctcgatcgaagtgctgacgcggctcgatgcggcacggaccgctgcgatcgaacaggccgccactgctaaccaagcgatcaacgaact cgggcggctggaagcagcgatcggagatctgacggcagcccttggcatcgacgcagccgctccactaccgcgggatctgcccgctgccacacgacccttgcatagttgg ctagagcgcctgtttgcgccttgggtacggtaccggcgactacaacggctacggcgtctagcgctgggatggggccagcttggttttggcgagtgcgacgaatcgacgct ggagctacacgaacaacgtctactcgacctgcaggagctggctgcgctgcgggtcgagcgggatcaggcagaggcagccgtgcgtcaactccgttcaaccggcgatcc gatcgcgctcggagagcggctgtgcgcttcatccaaattgcgtctgcaggggctcgccgaactgcttatcgagtgtgcgcctgaagatcgccgtgcgttgaccgcgttgcg cggcgatctggctctggcgcgcggtgatggcgccgccggtgctgcccgtgctcgggaactctggtcggctcagcgagccctgatcctcggccagatgccgctatgggcc gtgtcaaacctcggcgcagccagccgcattccgctggtacccgggttgttcgattatgtggtgcttgacgaggcatcgcagtgtgatatcgcttcggctttgccgctgctggc ccgggctcggcaggcgatcgtgattggtgatcccgcgcagcttacgcatatctcccaagtgcgccgggagtgggaagccgaaaccctgcgcaatgccggcttgatgagg cctggcatcggcagctatttgttctcgaccaacagtttgttccatcttgctgctgctgccgccggcgaccatcacctgctgcgcgatcacttccgctgccatgaagatattgccg actacattagtgccacattctacggcaatcgcctgcggccattgaccgacccgcgtagcctgcgggcaccagtcggacaggcagccggttttcactggacgaccgcgccc ggtccgatccaaccagcccgcaccggctgctttgcaccagccgagatcgaagccatcgtgcacgaattgcattggttgctgggtgagggcggcttcactggaagcattgg cgtagtcacatcgtttcgcgaacaggccaaccgtctacgcgaccgcatcgagcattgtttgagtgccgaggcgattgcaagcgcacgattggaggttcacaccgctcacgg cttccagggcgatgcgcgcgatgtgattctactcagtttatgtatcggtccggatatgccggctggggcgcgagccttcctgcacgacacgggaaatctcgttaatgttgcgg tgagccgtgcccgcgccgtttgccatatcttcggcaacctggagtatggagctcactgcggtatccggtatgtcgaggcactgctggcacggcgccatcgaacaggcgatg ccactgccagtttcgaatccccctgggaagaaaagctctggcgcgccttggctgagcgcggtatcgagacaacaccacaatacccgattgccggtcgccggcttgatctgg cattgctgaccgacagtgtgcgtctcgatattgaggtcgatggcgaccgttttcatcgcgacctcgacggtcggcgcaaggtgggtgatctatggcgagatcatcaattgcag gcgctcggctggcgggtcgtgcgcttctgggtttacgaactgcgggagaacatggatggttgcgtcgaacgcatccttgtccacatccgaagcaccgattactgagcatcac cgttccccaccagcagcagccgtgccaccagcgaattggcggcgaatgcaactcgtgctcgggctggccggggctctggcgctggctagcctcgtcactgtattggtggg tgtaatcggcgacgccaccgaacgcgagagttggcgagtacggcgtagcgagcatcaggaggtgctgggcgcgctcagcaccgcacgtgcccagcttgatgaggaagt cgccaacctacgccgtaatcgtgctgcgctcgatgcagacctgaatcgtctccggaccagcgccgaagctgagcagggcggcgcagcacggctgcgtgaggaagtcgc cgcactacgccaggagctcgccgccggccgcgccgagttggctgtggctacgcagcggcgcgacaccctgcaggctgcagtgaagacggccgatacgacgctggcg gaactgaacgcgcgccgcgatgaggccgagcgtcagaccggtgaggcagcagaacgccggcgggtcgcggccgaagccgagcgggccgcgaaggcccagcaga gcaaggccgaacaagcccgcgacagtgcggttgcacagcagaaggaggctgagcggcgcatcgagcagatccttcaggacctgaaaaccgccgaagaacgagtagg tggactgcgcacgcaagaggctcaactaaaagcggctacaactgcctccactgccgaacgtgaccggctggatgctgaagccaagcggctcggactggagcttgtcaag ctcgatcagcagcgccagcagcttgagcgcgatacccgtactaccgccgaaactcgacggacggccgaggggctccagcagcagctcgaccaagcgaaccgggatct cggtaccgtccgcgaagccctgaagaccgcgcaggggcagctagccgaaacgcgcggccagcagacccaactcgccgacgaactggcccggctgcgcgcacagaa aaccggcctggatggcgtgatcaccgcggctgctaacgctcaagcggaacttgacaaactgcaggctcagcagaaacgggcggagcaagcagcagaaacgacgcgtc tcgatgttcgtcagctcgaatctcggaaaacggcactggaagccgacatcatcaaattcaccgccagcggcaaggatttggaaaagttccgtgccgaactggctgatacca atgcagaactcgaacgtctgcgtcagcaattggttgaggcacggagccggcgcgagactatcgcgattgaagtggaacgcctaacgcaacagcgcggcgaactggagc gcaccatcggttcactaacgccgcgagcgcaggaggccgaagcgctacggatccggctccagcaagacaacggcactttgctcgccctgcgcgagcagattgaacgctt gcgcactgaacgtgacagcttgcagcagccggtcacatcttccatgcatgtccccggcgacaacgccgcggcacgctgatcaaggatcgcgctgatggacacgaacacc ctggtctggcttgcatcgggtggcacgcttgccggcatcgtcagtgttatcaccgcattggtgtgcggcatgcactacggtgcggcgctacgccgcataccggctgcggcct ttttggaagatatcgtcgcacgcgtcgcaactcgtcgcgaggaactcgaacggctggatgcccaattgggcgagcgccacaacggcctccagggcctgcggggcgaaa cggagatgctgacggcccgccgggatgccttggcagcgcaactgcgcgaactgcaggaggacctggttgcactcgatgggcgccgggccgacatcgcttcggtgcgc gatgagttggcggaagcacggacgcaacttgccatgctcgtcagtgaactgaccgaacggcggacgcagcaggagcaactcgaacgcgcggccgaacgtgcccgtgc acaactgtccctgctcgaagaacgccggagcgagatcgaggcaatcgatacagccgagcgcgaagcacggatacggctcaccgaggcgcagacggaactgggcacc gtcgtccaggcgcgggaagcggcacggcgtgaagccgaggcggcagcgcgcgacagggagatgctggcaacgaacatcgaccggctcaccgatgagcgcaacga actgcgcgctgacatcgccagtctccaagccgaacgcaatccgctgtcgactgaagttcagggcctgcgccggcacttggagcagttgcatcttcagcagcaggcactcg acggcgatcttcaacgcctgcaatccctacagccggtactggaagataaaatcagcggcctgcaacaggaagttgttacccggaccgctgaactcaaagaccttcaggcc gaacgtgatccgctgtcgactgaagttcagggtctgcgccggcacttggagcagttgcaccttcagcggcagacactcgacggcgatcttcaacgcctgcaatccctacag ccggtactggaagacaaaatcagcggcctgcaacaggaagttgttacccggaccgctgagctcaaagaccttcaggccgaacgtgatccgctggcagcggacattgatg gcctgcgtcggcaactcgaaccgctgcgtacacagtgcgacgaagtcgaagcggaactcgcccgccgccgcgccgaactcgccgcgatcgagcaggagatccgtacc aaaggcggtggtagcgtcggcaacccggaagacgtgctcgccgatctcgaacaggcaccggcttgtctggtcggcgacggcggcaggggaccgttgatgccgaatcc gcagcgcgacgacgacgaaacagcaatgctcggccgcgtgcggacacaccttgatcggctccgtctgcactttcccgagcgcactctttatgcttttcatactgcgctcaag acggcaacgattagtccgcttacagtgctggccggcatttccggtaccggcaagagtcagctgccgcgccgctatgccgaagcaatgggtatccatttcttgaaactgccgg ttcaaccacgttgggatagcccgcaggacatgctcggtttctacaattatttggagaagcgctacaaagcgaccgaatttgcacgggctctggtgcatttcgacacgtacaact ggccgcttgcccggcctttcaaggatcggctactgttgatcctgcttgacgaactgaacctcgctcgcgtcgagtactacttcagcgagtttctgagccaactcgaaggccgt cccgccccgggcgatcgcgatcctgagcacatccgcagttcggaaatcgtgctcgatactggcggcgttggcggaccgccgccacgcatctatcccggccacaacctgc tgttcgtcggcacgatgaacgaggatgagtcgacacagacactttccgacaaggtgctcgatcgcgccaacctgctgcgcttcccgcgccccgaaaaactggccggaga aacgctggcgagcggcggcgagccggcggaaggcttcctgccggcctctcgctggcatgcgtggcggcgcagttttggcacgctgccggcaacgctgcgcgaaccag tcgaacgttggatccacgatctcaatgagcatctagacgggctgcatcgaccgttcgcgcaccgtgtcaatcaggcgatgctcgcctacatcgccaactatccgggtgtcgc cgagccgatggcgcaaaccagtcctctggatcaggcccgcattgcctttgccgatcaactcgaacagcgcattctgccgaagctacgaggcattgacctgggtgactctgg agtcacccagcacctcgaccgcatccgtgcgttgatcgacaacgagttgcatgatgcaacactggctcgcgcctttcagcgcgccgcgcaagatgacggcagcggcagg ccgttcgtgtggaaaggcgtacgccgtgaatcgatatgatcccgctggtgctggctatgccatggggactactggcacagactccgatcgccggccagccgacgcgccga ccgttacatgacggtgaaacggtcgaactcgatgggcggtacggtgccatggtggcgctacccgagcggaccgacctgcaactgggcagtcggcgctggccggtgcag gtggaaggtgccgcctttgcctggttcgagggatcctttcggttggtgtcgctgccgactgcagccttgaccagcgaacgtcagatccggttcgatcttctaacggcgggcg agtctgtgctgagtgtcgggctcgtgttgcgtaatcatctactgcgtccgcgcggagccggacgtgacgatccggccgccgatgcattgcacacctttgtgttgcaggttctc gaccgcatccgtgaggccgaaccgtccggtgccggagacgattgggatgatctcggcaccggttgggcgcggctgcgcaccgcctggcttgagcgcgatgcgcagatc gaagaagcgcgccgcgatctgatcgtcgaacatgctgaacaactcccggcccacatcacagaaatcgctatccacccgcgtcgggtgctcaaacgcacccgcgagttgct gccgatcgatcgtatccaggaactcgacaccgcctgtctcgaatggctgatccggcagcccggcgttaccgttgccgaaaaggccggtccgcgccagcgactgctcggc atcgcgcgcgaggagcatctcgatacgctcgaaaaccgggtgctgaaagatttcctgcgtctgagcgtcgaggctgccagcgtctggcagcgggagaaccggcgttttca caacagtgagcgcgcccggctggtcgggcgttatctcgcgctgtgccgcatgcatcatcgcgaactgtgcgcggctggcatcggtgaccccatgcccccggtcgctccga atttcgtgctgcaacaagattcccgctaccgcgtgatctggcgcgcgtaccgcgaactgttgagcgctgagcagcgtatggacgatctctggcgctggcagtgtcggttgtg gagcgacttcgctcggcttgtcgtggtgatgggggtgcaagagttgtgcgacaagccgagtgcgctctcgcccctcttcgtgcgcagggaacaggcaagcggacgctggt cggacacgctcggcctgctcggtgtattcctgatcgacctgaacggcaggtcgtatgtggcggaagtctgtgatgcgagccagttgccccgaaacgacacgtcacgagcg aagctggcgtcctggcagtatgcactcggttgcacagcactcatccgcctcatcgatttgtggagtgggcattgtgcgagcctgtgtgtctgggccatgcatagcgctacagc cgagacgcttccgttgaccgagttggtcgcttcagccgatgaagccctgagtacggccatcagacaggaaggtctgcgcaacggcgagcaacttcgggcacgtggactg gtgatccgctcggcgccgccgggaaagaccgagtacgccacccaggctgggcaggtctacggactgacgctggccatcgggtcggaacatatccgcgaggcgcttgg cgagtgcactttgatcctgcaggacagtctggagcgcctgtttgcatgagcggagtgcacggcattgatctcaatggtgtgctcgattgcgtggtgcgcctcgatcgggcac cgcgaccagcgccgacaccgccggtgatcgtctccggttcaccacagggcctgctgacgggagccgcggcactgcaatcgccctgcggccgacctggcatggaagcc gaggaaggtatccgcctgccagtgctggccctgctgcacgcgctcagtggtgaggggcggcacgatacgcacgatacggccgtgctgctcggccgacacctgcgtagc ctgttgtccgatgatacgcatgctgctgtcgtcgcagtgcctgacacacctggtttcgacgaacgagctcgcacccggctgctggatggcgcgctacgcgccgggctcgat ctgcacctactatggcgcccggtcgcagcgttgcttggttggggcgaaacactgggaaacggcgaactccaagccctgcacggccggacggcctgcgtcgtgcagttgtt gccggacggcatctcgattggcgatttcggcctcgaatgcgtggtgcagggtggccggccgacgttagtaccggtgcgccggcgcgacggcgaacgtcaattttactcgt ggagcggtggtggactggttgcactgctcgcgcgcgaagctggaaccgacgaagccagtctgtgggtcggaccgtgggtatggaaggtcttgcttgggcagcctgcaga acgcgaggtgctggccgacccgcatgcaccgggtggttggcgactcgccagcggtccttccacactgtgcggcgccttagccgcggagttgcgcacaggcctgcgtata gcactcggagccgcgcgctcggcactgcgcaatgcagcggtcattctgatcgaggggcctatcgccgatgcaccgcttttggacgcaatgcagccaacactcgcgctac gccagatcgtggctgcggaactgaccgtggtgctcggcccgacggtgtccgcaagactcgtcgccatgccgctcgccgatgctctaattgccagaggggccgctatctgt gctgcgcgtcaagcggcgcggcagatcacgtattacgatttcctgccgatgctcgaaatcaatgtgctgcaggccggagagcatgcgttcgttgaactcatcggtcgcgaa gagcgcatcgcggggggcatgagttacacgaatacgttggccgatcgcttcaccgttgccgcaagcacgcgctcgctcgagttctacctgctgaaagaggacgaagcag gcgctcgtcacagcgaaacggtgctgccggtaccgccggcagccgacgtggaaatcagcctgcacgtcacgcagacacccgctcaaggctacgcacgcgtggagata ctctcggccgtccggggcgcgctcggtgaagcaccgatcctgctcgattggtcagcgatgacagagattgaaggctcgcgcgaggatattctgcgcgaactcgaattcga ggggctcggctatccggacatcgtaccgcaacgtgcacatcacctgctctgggattaccagcgcagtgacggcatgactatcgctgccgcgatgcgggccttcaattgtaa gcctatcctaagttcaccgcgcaaccagtacaatcaattggttaaacaaacgcgcgcactcgtcgggctgcgcagcaatctgttttttctgacaaagggcaccagttctgatcg tagtgcttacaccgccgtcgattcggatggccaattgccacctggaatcgcgccgacaatccaacaggaattcgaaaactttcgagtgcggctcgacacggattttgccgca atcaccagcgtccgtaatcgacaagatatcgcaacccggcgtgaattggcgcgactgggcgcctgcttgtatgcagcgtgtcctaatgcaattgttcattacttccaacgcatt gtcgcacgtagcgccgatgacctgacactggtgttgcatgccggcaaagtgctgagcaccgaaccagatcttgacagtcttttccattattgcgcgtctcgctacgatgaagc catccgcgctgtcaagagactgtcggtccacgtggtacgcgcggcaggcgatgctttggcttatcatgaaaaagctggaggcattcttgataaccgaagcgctgacaagttg gctgaagctgcgctcctattgctaaaggaggaaatccaggcacataattacaaaatacgattccgtgccgccgcgcgactcggcctatttctgttacgccaccggcagcggc ggcgcgatttcctgcatccgagtagcgctgacacggctaatcgtcggcgtgccaaagagttcgatgccctgttgatccaggctatcgcatcgaagcgccttaaccaagatct ggaaaatgccttggaagaaatccgtgcacaaatccgatatcgcggtacaaatgcgatcgttgatatcgatcctgacgaagatggcgagattaacgagaacgaagtggagta gaggctgttgggcacccgctcgccatccctgtcgagcatcccggcttcgcgggcgcccatcccgtgcctttacggcgtgttcaacggccccggttcgccctgcgtatcggg ctcctgctacgcccgtcgagacgcgctgcgcagactcgacgctcaaatggcttgacgccattctccctggctacc (SEQ ID NO: 404) 41 Helicase- atgtctctggttttgaagacggttcgggcttttccgagaggtcggactaccgaagaattgcttgttctcgtcggtgcggctttctcaaatgacaagcggcttgcggctctcagcg DUF559 + aactggagacgctatttcgcgatggtttgatagtgaaaggcaaggacggtcgctggcgtgcaaaggcagatggtttcaaacccagacatgagagcgtgtcggcttcgaga SMC + ggtggagggcctgagggcttcgttgatgtcattcacgctgccaatgcattcttctcctcggaaccgacggcggccgaactacctgatcaagaagacgaaagttcagatgctc McrB + ccgatccgcaagcgctactgagatattggcgctcggccttgcgtgccgatccacgaggagccacgacccaggttctcgacaaacatggaatcgagtgggccttgatctctg DUF2357 + ggcgtggccctatcggtccagaagaagggcaaacgctgactgtttcaatcgaactcgacgcgattgatcctgcctttcgagaggctctggtgcgaagggaaggtcacgag ATPase aacgcgcttgcagtgggttggccgatggcggtcggacgacgtggcggagttcctgtctttcgacccgttggcatgttagcagcagcttgggatcgtaaggatgaccgtctaa tcctgacgattgatgccgatgacgttttggtaaaccctgattgggtcaaaagtgccgctcgtgccagcggctggaagcgcgacgacctcgctgacctttttttcgtggacgatg ggctggggctgcgggctcaggattttgtggagaaggtaaggattgccgttgccagtcagatacgtggtcgcgttgtcggcgagaatctcgccacacagctcgatgcctcgg ctcaagggatttttgacagcgccgcgatcttcctaccgactgactcttctttcaccgcgggggctgctcgtgacctggatgccattgcgacatggccgaaggaccgccttgag agaactgcgcttggcgcggtattcgggtttgaccttcaagacggcacggacaaggctgctgcaatcgacgcagttccgctgaacaaggaacagttgcgcgcggttcgatc cgcatgccaagcgcctttgaccgtcgtgaccggtccgcccgggactggcaaaagccaagcgatcgtatctatggccgcgtcagtgctcgcagatggtggcagtgttctcgt cgcctccaagaaccatcaagcgcttgatgctgtggaggaccgtcttggctctcttgctccggacgtcccattcgccatccggacactgaacccgaatgacgaggcggatac gggcttcaaggacgccctcaaacaactcatcgacagcgaaaatgtgacgcgcaacgcatctgtcgacgaattcgcattaggcgagctcaaaagcgacgcgatcgcgaga agcgaagtggttagcgtgatcgataagatcacggaaacggaatgcgaaatttccgatattctggaccggattcaagtccgagaggatcgcgggcgccctgacaaccaaga ctctgaagacgtggatccgagacaaagtctcttactccgctttgtctcttggtttggatcgcttttcgccaagcgtccccccaaagtagcgccagtgacagatcattcttcgtccc gccgcggaatgaacgtcaaagagcttcattgcgcgctggcagaaaaaagatatgaacgcgatgcgctcgggacacctgacgatccgatcgccttaggcgagaagatccg ggaagcgaccgagaatcttctgcctcgcattctgtccgcccggacacatctcccagaggatgagaggcgcgaaatcgcagaactctacgatgactggacattcgacgggg gacggggacatccccctactgatctttcgcgcgtcctcatttcgcatcggcctttgtggcttgcatcgatcttgggcacgcctcgacgcatacctcttgatgacgggctgtttga cctcgtgatcttcgacgaggcgagccaatgcgacatcgcgacggccgttccgttgctggcgcgcgcgaagcgggccgtcgttgttggggatgatcgacaactgtcattcat ccctcaactgggtcaggcgcaggatcgcaatctcatgcaggctcagggcctaccggtcgccagaatgggccgtttcgcccagagtcgccgttcgctattcgatttcgcatcg cgcgtgtctgttgccgacaacaggattactctgaggcaccagtatcgttcagcaggccccatcgtcgattacatcagcgagaacttctacggaaaccagttgcagacctcgta tgacccgaggcgactgaacgtgccagatggggtgcgccctggcctcgcatgggaacatgttcctgctcccgcggtcccgcaaatgggcaacgtcaatccgtcggaagta agcgcgattgttaggcacctgaaaaagctgatcgttgaagacaaatacactggcagcatcggtgtcataacgccgtttcgcgctcaagtggccgctatcgagaacgcggtc gatgccgtcctggatgaaccgaagcgcattgcctgcgagctcaaggttggcacagttgacggttttcagggacaggagcgggatctcatcatgttctcgccttgcgtcggtc cacgcagcccgcagtctggcttgaccttctttcagcgagatacgcgccgtttgaacgttgcgatttcgcgggctcgggcggtcgcgatgatcttcggcgatcttgattttgcac gttcagggcaatcaaaagcgctggccaagctcgcttcgagggcgacggaagcgcggacgaaacggggcgaaggtgtgttcgacagcgattgggaacgcaaagtctatc acgctctgaaggcccgaggtctggatccgcagccgcagcacgaaatagctgggcggaggctggacttcgcgttgtttggagcgaatgatgtaaagctcgatctcgaggtc gacggacgcagatggcacgaaagcccagacggtcgtcgaaagacgtcagacctgtggcgcgatcatcaactgaagtccatgggatggcgggtgcgccggttctgggtg gacgaactttcaagggatatggagggttgtcttgaccgagtcgaacaagacctatcgtaagtcgagcaggaacaccgcggttgcgttggggctgggtggcgccgccatcc ttgcctcgggctttctcgtcctgcaagtcaactcgctcgatcgccgatatggtcgtatcgaggaaaatctgagctactacaccggggaactccaatccgcgcagcagcaact ggcttttgctcgtgagcagtttcgcgaactttctgaccaaaagcaaagcttgtctcaggaagtcgcgagcgccgaacgcagccttcaaagcgcggctcagagagaggcgg atgcgcaggctagtgtcgaagcaagccaggccaaattgactgctgagcgggaccgtttggccgaagcccaaaaaacgattgcggatgcgcagcgaattgaacgtgaaac tgctcaagctttgctgcgaagaaatggcctcgaaacagaggtggtcaaactgaaaggcgatgtgcaggcccttaaggagagccagcaagagttgtctgctggtgttgacca aacgcaatcggctgtcgatcgcctcgaagagagaagagctgaacttcaacgtgaagtggatagactcgcgcccgccgttgaagaccttcgtgcacaggagcggcttgtcg aacaactgcgaggtgacgaggatcgtctcgaacagagcctcgacgatttgaatgcgaacattgcaattgcacggactgaattggcgaccagcgcggaaaaggtcgatgc ggccgaggagaggctgcgtgcagggcaggaacaaatagcatccacagaagctcaacttgaaacactgaatttcgaagtcgatgacctcgagtcgagacagggcgaact gcaggcaagtgtctcgggagcagagacgcgtcttttttcattgcaaaatgaactggagatcgcacagaacgcggtgacgcgagctgatgcgcagcgcgctgaaactaca gaagcactcaacatcgctcaggaacagttttcgacgcgaagcgctcagctctctaccctccagtcgcagattgcatcggcagaggaagagcttgccgaacttgaagagag acgggcggaattcagcagattgcaggctcaaatggaccagctgcaagcacgtcgaacgacactagaggaggttctccccgatcttgagaagcgagttcaagcagagcgg gctaatttgggttctatcacgacagaagtggagacagagctcgggcgagttgctgtactcaaaggccagggttccagtctggaggccgacatcgagcgcctccaagagcg tcgcgacgaactcgggctggaaacgcagtccgccactgctgaggcggaggccgcgcgcgcatcccttcaagctgagcttggtcaacttgcggaaaccgatgccctttcaa gagcgcggactgccgatttgaggcgcttgagagaagctcttggagctgctgaaagagagctttccgaacttgaagagagacgggcggaattcagcagattgcaggctcaa atagaccagctgcaagcacgtcgaacgacactagaggaggttctccccgaacttgagaagcgagttcaagcagagcgggctaatttgggttctatcacgacagaagtgga aacagagctcgggcgagttgctgaactcaaaggccagggttccagtctggaagccgacatcgagcgcctccaagagcgtcgcgacgaactcgggctggaaacgcagtc cgccactgctgaggcggaggccgcgcgcgcatcccttcaagctgagcttggtcaacttgcggaaaccgatgccctttcaagagcgcggactgccgatttgaggcgcttga gagaagctcttgctgctgccgatgatgagctttccgagacacgagcggaactgatggacggacagtctgtggaacaggaaccagtatcaaccattagtgaaggcgctggc gcccgtgaaaacgctcagtctgacaactccgcgccatcgagcaccgacaattgaggtaaccgaaaatgcttacggacaatacaatacttgtgctggcgattgcgggtgtcct gatactgctcgccgtggttcaactttttctggccgcccgccacgaccgggcggttacggcagcaggcccgatcgaagagcttgccgtctacgagaagcggctggaagaaa aacagcggctcatggacgatcttgaagctgaagtggaaaaacgtcgggaggcaatggccgtcgttactgacctccgggctgaggtcgacggtctacggcgtcagaagga ggagctccttacagaatgggagagtctccgtgaacgtcgcgacgaagttgcggcagttcgcaaggagactgaggacgccgttgtcgaacgccagcaactcgaaacgga gatcgccccgcttcgtgcggagtatctggagataaaggaaaggctggaaaaggcggaggagctcattgagcgcactgacgccttgagacgagagcacgacgaaatctc cacacaggtcaaagatcttcgggacaagaagaggcaacttgaagaggccgaggaacgggtttctcgcctggaagagcgttccttcgaacttgagacatcgaatgctcggc ttgagggacagaagtcttcgcatgaaagcgagttgtccgccttggaagcgcggatcgcctcggaacacggtgggttggcatctgcccaaaccgaacatgctcgcctcgat gcagaggttgcggctctgaaccaggaaacccgccgctccaggggcgaaatcgagacgctccaggacactcgaagcgcgcttgatgctcgattggcacacctcaaggcc gagatagctcgccgagaaggtcgaaccgtcgacggggaaaccggcgaaacggatccgcttcgcgagctcaatgaaacaccaccggtcattacggagatgaggacctg ggacaacgcgccccgcgagaacgaggcggatgccatcaaacgcgtcgaacgccgcctacgcgcaaagggtctcgactacccggctcgcacgcttcgcgcttttcacac cgccatgaaagtaaatgaaacaacgcagatggcggtccttgccggtatttccggaacgggcaagagccagctcccgcgtcaatacgcggccggtatgggcatcggtttctt gcaagttccggtgcagccacgttgggatagtcctcaggatctgatgggattttacaactacatcgaaggcaagttccgacccacagacatggcgcgtgcgctttgggcggtc gacgggcttaacaacgacgatgcggaacaggatcgcatgatgatgatcctgctggacgagatgaacctcgcaagggtcgaatactatttctcggacttcctcagcaggctg gaaagccgtccgcgtcccgatgacgtcgacaatgaaaacgaacgcaaggacgctgtgatcgagcttgaaatcccgaacatggaacgcccccccaggatttttccgggcta caacctcttgtttgcgggcactatgaacgaggacgaaagcacgcagtcgctatccgataaagttgtcgaccgtgcgaatatccttcgtttttccgccccgaagaaaatcaagg acggacaggcagaaggaacggtcgagccgattttggccctttcgcaacagacatgggagagctgggggcggtcgagtgcgtctgtcgatggcggtcggcgtgtcacca accggattgaacaaatggttgatctgatgcgtgacttcaaacggcctttcggtcatcggctcggacgcgcgatcatggcttacgcggcgaactatcctgaggttgaaggcgg ccgcggtgtcgacgacgctctcgcggatcaattagagatgcgccttctaccgaaactcaggggcgtggaaaccgacatggctggccctcagttctcgaggttgatgaccttt gtggaacgcgagctgggggacgacgccttggcccaagcaatcggtgagtcaatgtccctcgccgaggcaaccgggcagttcgtatggagtggagtcacgcgttgatgcg gtttctggcccgtccctgggcggcgaaagcccttggagaggacgaagcctttgggcccgaagactgtctgatcggtagctaccagggggcgaacccaggcggctacga atacgtgacgctcttgaggggaaacgtccgaggtagcgataccggaactgttctgtttccctatccaaagcgtgaggaagctgtcgggcccgcgcgtaagggcttcccggt gcgcccaaggtcggggcacgatcctgccactccggacgaagaagaaggcgcagaggcccttcgacacatgaacgaagttcttgcacgtatccaagaactggaaggtgc gattgaagacccaagcgatacatgggggcgcctgagggatgcttggaagcgcgccgaaaatgaagccgaacccaaaatggctgaaatcgtccggcaggcgcggggca tgcttccggtgcttcgcgatctggaaaaacgcatccgccgggttctacgtaggcacagggagctaactccccttgatcgggtgcaggagatggatcggacctctatggtgtg gctcagccgacagccagggcgaagcatcgcggaacgtgcaggttcttcgcaacgaattcttgcgacggttcgccgtgagaatttcgatacgctcgagaaccgtgtcctgca tgcctacacgcgtcttgccgcagatgttgcacgcgaatggacccgtgagcaccctcgtgcgaaggacagtgttcgctacaaacaggttgaggcttttaggaaggcctgtcg agtattgtcgcgaacactcagtgacctcggtgtcatgatcgcgtcggccggcgtccagccaaactatgtgctcatgcaagatcgcagctatcgagaggttcatgagggatgg ctgaggcttctcttacgccgaaaaattgtagatgatctttgggcttggcaggccgaaacttggacggatttctccgttctttcgatcattcttgccatcgacgaattggaagaggc tgaacttgtcgctcagtcgccgatttcgtggagcggtgaggcaacaggcggacgctggttcaatcaggatcggccaatcgccgtcttttggctgcgcgacaccaaccgcatt gttgaagtccaagcacgccctgagcgaccaggaaccatgttgagcgcggcacaagcgcacgtcgccctcagaatttccgatcccaaacgggctgaccttccgcgcagga tcgctgtctggacgccacatgccatgcgtagaattgatctcgaggatactgtgcggggggcagttcaactgcttcaccaaatccagcccctcgctcagacggaagttttgcg gaatgggttgatcatgaccccagcacgtggtgtcgcagctgaagagagcgcaactcacggaagagcgatcgttacggcaatcgccataggcccagccggtgaagaccta gcgaagggattccaggccgtgcgcgacttcattcgcagtgagctatacgaggtcgcaacatgatcgaccgaaaactatgcggcttcgatctcaacggatggagagatttcg ttgcgaagaactggcgctccgtgccaggtgaagacgaggtcattggtccgaccgatatcgtcacaagtggccctattcgtcgatcgtgcggatcggggaaagccgcctcg caggttggatcggaggaccgcaggctgacattgctccgcacggtcgcggtggtggttggggtgatgtcgggtcagaacaaagacgcattcccgttcggtcactgctggaa atgcgtgatgacggggtcgaaaaactcgcccaggcacttgtgggatctgcgagcggttcggcaaacacagtcgtttcgatcgatgagggcccggatggcgatgaagccgt ccaagagcaccttctcgaagcacttgcccgagggaagttccgaaatggctcattggtttggcgaccagttcttgccgccttgttcgccattcatcgcgatcaggtttcggagg ggcagcttgtaggcgtcgtctcccatcagcgccaaggcttgtcagttcaaaagctgcgtattcgtagcgcaaggaatgtgctcgccccggagcgacgcgaggccgctgcc catataccgtgcgacgctggttacgagtccctattccgaggtgcccgcaacgccgctgtcggggcagagggtttttcggcgcgcacagctcatcgtgcgatcgcaagctcg gtcggaaaagctggtttagggatggattgcaatcctgagatgctccgcatgcccaacggcgattgggagctcttggaccttaataaatttgacgcgtcggaagtggtgagtgt cccgagttccgagctcgatctggccgattgcgacgtcgttcttttcgagaccctttgtgaaggtcggctcaaaaaatgcctgagtgatgctatccaaagagcagctccagtcg aggtgctctctcttcccgcaacggctgttgcggaaggtgccttggaagcagcacgccgagccggggacggggaaccgatcttcttcgactttctaccacgattgtccaccat cgtgttcggatcggatggcgcaaagaatttcgatctcatacggaaagaagaaacgctcgaagcaggccggacctacagaagccctgaagcagcatctctcgcgataccg gcagggcaggagagcgtctctgtctacctgaggaaagaggaagctccctggcctcgaaaggcaagggtgtcgcttggagctcctctgaagcatcaagctgccgtctcgct gtgggtcgaacagaaaccggccgccgggcgagcgcggatcctcatggaatcgccggacttggggcggaatttcgcggtggattgggatgaagcactggaagaggaac ggccctggtctgagatcatcgagagcttggatacgcaagtgtcaattcccaaacgtctggttcttccctgcggcatggaggcatggcatgacagcgatcgatccgcaggtat gctaactttgctcgaatccgagcctaatcgcagccgcacggattgggcgacccttcggcaaaaactttcacagcgtccctttggcaaatactgcatctcaagtgacggcgac gtgcctccggagatcgcggcagaaaccctcgagcggtttgaaattctgaccagcaaagcgcttgaggttactgaaaagcgcctgaggggcgaaagcggctacggaacg gaagacaatgaggctctcaaattcttgagttggcagttccgccgatgcccgcgcgatgtcgcgacgtggctgatggactgtattgaagcgtccgggcgcaaccatccgttcg tcaaacatcaagcaagttgggttctcgtatatcagggccttggccgcatcgtcggaaacgaagaggacgaagcgagagcaatgcggttgcttctgacttcgtccattgagga ctgggtctggaaccgacaaagcgcggccatggcgttcatgctgtctcgttctgacagcgctccatcttacctggaacgagaagacgtagagaagctgaccaagaggactat cgcggacttccaacgtaatatcggcggccaatatacaatgtttaactacgcgcctttcttacttgcaggcctgataagatggcgtctcgttgatcctaaagctttggtgatcggg gccgacccgttggcggatgacctcttggctatcattgagaaaacagagcacgacctgaaggcccgttgtgggtccaatatgaatttccaaaggcggcggtcgaagttcttgc ctatcctccaagacctgaagtcagagctggcgggagaaggttcgaatcctgacctgttgttggatatctatggagcgagcggaacgtga (SEQ ID NO: 405) 42 GTPase + tcgcgatcaaggggtgagcaggggataaacgcaaagacattgaagttgaggagaatttagttgccttacctgcgaaaaatctgagcgatcttgcattaaagattttctatctca GTPase + ggccgatgctcataagagcatttcctgaatttcaccctttttttgctcgccatccctctgcgaataaggacaccgcgccagatatgtcactcatcacccatacattagaaaacctc TM acaaaagccttgcgtactgcgttgcgtgtctcaattgaatgcaatgagcgcagcgaaaatacccataaaattttaaacgtgttacgtcaggttgagctgacgctgatgctgcat caacaacctatctatgccattgccggtacgcagggagcgggtaaaaccactctggcaaaaagcctgctgggcattgacgatagctggcttgaggcgaatccgggacggg gcgagcagataccgttatttattgagcaacggcacgatgttcagggtgattatccgcaatttatttatgtctgtgctcaccacaaaaccggtgaaatttttgacagccagccgcg cagtggcgatgagctgaaacagatgctgcgtgactggtcgcaaatggtgaatcaggagatagaagggggcaaaatcctctatccgaaattaatcattaataagtcagacagt tttattgatgaagagatggtctgggcgctgttgcccggctacgagatcagcaacagccagaatcatcgctggcagggcatgatgcggcatgtcatggtcaacgccagaggc gtgttgctggtcactgacccgacgttaatggcaaatacgaaccagagcctgctggtgaacgatctgcgcagtgtgttcgccgatcgttctccggtgattgtcgtgaccaaaac agaaagcctgaacgatgcggagaaggccgaggtaaaagcgagcgctgccgcactttttcatgagacctcctcaccggtggtcgctgccggtgtcgataatcaagcgcagt ggataggtgagctccgcactgcatttgctgagggtatccataatagcgccgcgtcagaagcggccgcgatcgaacgtttgatgactctggtcaatgacgatgttgcggatatt attgataacctgaatctgctgtacgcggagcaggacagtggcgaggaacgtaccgtcgctattcttgaagcgttcgataaagcagccgagcgctatgaacagcaactgcgt aaagccatcaaacgagaaactgacgggcatcggcaaaaagccactgaatcttgccagcgccgttatcaggaagaagaagaagggccggtcaataatttaaaaggactcg gtcgtcgtctgatgtttcagggggcggagattgatcgtgaacgcaaaaatcgggtactggacgcctggcaaacccgctttgagcagcaatctctggccgatcacaatatggt cgcgctggaaacgctcaaccgtcgtgagttgaggcattacggtctttcacaggagacgctgtcaccccaacggttgacctcgcccgcggcgacaatgggatatttgtcggt ggctgaggaggataatttttcctcgctggcccctttgcgccatctgctgggatcggctgcaacaagggatgcgccgccgcagttagaccagctttccacggtattaaaagtgc tgcctgccatgacgatggaatatgcgcgcggttgggtggcgatcaaccaggcgatgcccgcagcgtcagagctaaccagcgagttgcggccacaacaaattctcgacgc gatttttagcgcgcagagtagcatccacccggtgaaaaccgcgctgatggcgtttatcggtgccgacgccgcggacggcacgctggatggcgaagtgggcactccgcag aatgaagatagcggcgtatttacgcctgtcgcgatagcaggcaaagcgatgctggtcggtgcggcggtttatgcgttgtatcaggtggcgggcgtggtgagtgagagtgat aaagctcaggcctggtatattgaacggatgatgaaggaactggcgcaatataatgaaaacgtcatcatcgagcgttatcaggacacgatgggcgatctgcgtcagctgattg aaatcaacctcaaccgtttatttggcgtgcaggatgtcctcacgcagaaaagctatctctggttagctattcagggactcacgacggtacaaaaggaagcccggcagtatgaa gccagtatcaaacaatatctggcgtgatatttgccatgagcgttatcgatgggcggaaaatagctacatcaacctgctgcgtcaggttgatgccgagcggttaatccagcctc atgcagacatctcccgccagatatcggtcattgtctatggtccgacgcaggtgggaaaaacctccctgattctgaccctgctgggcgtcagggatgactgttttaaagaactta accagctgctgcgtggtgggcaggcattaggtcacgcgtcaacggcgcgaacttaccgttaccggatatcacgggatgatgcctggtattttagccacaaagaccagggaa caaccgcctggtcggatagcggggcggcagatattttcgccagcctgcgtgcagaggttcaggcgggcaggcgctactttgacagtatcgacgtatttattccgcaacgttt cttccatcctcagcagcggcaaaatggtttgttaatccgcgacctgccgggtattcaggctgcggatgacaatgaaagggaatatgtgactcagcttgccagccagtttattcg ttctgcggatgtgatcctgctgaccggcaaagcggattatttaggctttctgaaacccgaggagttgggtaatgacctactggctgactggttctggcagccacatcgctacaa aattgtattaacccggacttttagcaacagttccattcgggaaatgttgcgccgtgtttcccccgataaatcctggctgcaggcttatttgtttgagcaaatcaatacgctggaatt gcaacttccggcggagatgcgtcaacacatttatccgctcgaatgcggtcactcctggcaaaccctgattgaggggggtgacgattatgctgactattgccaacggttgcgtg agcagatattaaccgacctgcgccatcatatgttgcaggcggtccatccactttctcgtttacgtacgggatacgccttacctgaattaattatccgccaccgggacaagttgca gcagcagtacacagcgctgcacagcacgctggacaaagaacaggaatattacctgcgtaaaaaagagcagctgtcgtctgtgcagactgaatattcccggcatctggcaa agagccagacacgactggacagattgcagcggctacgggaacggctgaataaaagacaggcgcgcaacgcgcatcaatccatcgctgtgccaccgatgggcacaaga acggtcagtgccttactgaaaatgattgctgaggcaagagaagagatggcgcttcatccggcgttaaagcaccttcctgcccatttcgctgcgcaacagattaaccaccatgc cttcacggcgattgagcaaaagctgcatggctatcatgcggataattatctctttgccagcaactataagcatgactatcaggaaacgatcaacgcgatcaaacaacacctga aactgatcaccacattagccgctaatttccagcgtagtgagctggagagacacatcaaggaacatcgtcgtcgccagcaacgtttacaacaccacaccacccggcgagac aaactcctgacggcagtgaccaataagcttacgcgcatcaatacgcagcaacaggaattaacgcacagccatatgcgtgacgaggatcattatcagcagctgattggcgag agccgtcgctttcaggaactgatcagagtggcgaaaaatgaacgagccaccctgattgaacaacacattaggcgtacggatattggtcaggctgagcgactggcctggcta ctcgctgcccgtgcgttaaagaaagactacgaatatgtcagagcattaggagagtagtgcatgtcagtggaacatgacccggttattgcgcaggataatgacgagcggatg ctggatgaattggtgcaggaactgtttctgaccttgctgacgcgtgagctggcgcaacagaaagcggttatcgaaaccattaatgacaacgtctcgtatcaggctggtgagtc attaaaatcgttgaaacgggagatcaaactttccatcagcaccctgtcgaatgcgcaacagcaatatcaggaagagcaggccatcgccagggaggaatacgagaagcgg ctggagcagcagactcaaacatttgccagtgatgcggaaaaaaatcaccaacagtcacagcagcagatggcagcacttcggcaaggtgagcagcagctggctgcacagt taacagatttgcagcaacagcatgccacacttcatcagcgctcaggtcagatgctgaatagcattaaatggctggtggtggggctggggggcgtcaacctgctgctgtttgc ggctgtcatcatgatgttttttctcgggcatcgataatcatccgcgcatgcaggtttgtccggatatggtgcgcctggtgcaccatgacttttctctggcacggataaacggacg cacaggcagcgaatgacgcgccctgaataaactggcacaacttctgcattcatttcctcaggcttgtatacaaggccgcataccg (SEQ ID NO: 406) 43 TM + atcagggcaaggaccgttgcccatatgtgactggttttggtgtcggctatgtggccaggctgcgtgaaagctactgatcgctttttaatctaagtggtggatttatatgatcaatc GTPase + attattgataaactcatgaagaaacctaatttatttaataaaattaaaaagtatacgattagatattgcgggtgtagatatgactcaccacattaaaggtcaaggcagacatcaggt GTPase gacgttgctctctgacgtgcttgatgattttgtcacagaagataaaaacacgttgaagagagaaaaatgaataccgcagaagactttaaccgcctctatgccgacgtttcacgc aatattcagcagacgctgactgatatcgctgcacttcatgttgaaaatgaagagggaaagcagcagctacaatcgatggtcactcagttgcaatccctgcaggatggctttaa ccagaagctcacgtggctgcaaaagcatgccgaatgggacaaatttaccctggcattctttggcgaaaccaacgccggtaagagtacgataatcgaatcgctgcgcatcttg tttgacgaagaatcccgccgccagctgctgcaaaaaaaccacaacgacctggaaaaagccgagctggaattacaggaaatctcggaacgactgcgcagcgacttagggc ggatctatagcgatgtagtggataaaatcaccgatatcagtttttccgctctgcgtctgatgcaaattctcgacaatgaaagcgccctgcgtcacaaacgggaagaggaagag agcaaggaacgcctgctggttgaaaagacggaaagccagtcgcgattgcaaattctgcaaaaacacaccagcgccaaaacacgattaaccctgtgcattgccgccgtcat ctcttttgtcgcaggcgcaggcgcgagcgccgccgtggtgttcaatatgatggcggggcaataggatgagtaacgcactagatcttcaggctagtaccacgtcagtacgttc gcaacgaaagtcctcattgaatattcaggagctcctgaataaaacgctgcctcacctggttcagaccataatcaggaatgagagattaaaaaacaccctacttcaggttgatg gtctcattatcggtaccggcgaggcggattttaccaaagggaatacccgctacgccttacatattgacgataagaccttccatctgctggacgtacccggcattgaaggcaat gagtcacgctatatcagccaggtgaaggaggctatcgccgaagcgcatatggtagtgtacgttaacggtaccaacaaaaagcctgaaaccgccaccgccgaaaagatca aatcatacctcgaatacggtacgcaggtttatccgctggttaacgtgcgtggatatgccgacgcctatgaattcgaagaagatcgccacgatctgatgcagcaaggaggcgc aggagaagcgctgaagcaaaccgtcggggtactgcaaccggtgctgggctccgatgtgctgcttcccggtaactgcgttcaggggctgctggccttctgcgggctagcct atgacgatgcgacgcaaagcaccactatccacccctcgcgcgcgcacaacctcgccacgcaacagaaacgctatttccagcacttttcttctcgtcgggagatgcaggaatt tagccagattgacgccattgcccgcgtcattcgcggtaaagtcgccacttttcgcgaagatattgttgaaagcaacaaaggcaaagtgcgagagtcactgggtcagtatctac aggtactaaacacgcaactcaccaatcatcgcgcattIctaaagaaaacagagccggaatttgacaaatgctgcgtcgcctttgctaacgccattgcagcctttgaacgccga atcatcaataaccgccgtaaccgctggaacgactttttcaatgatctgatggaaaaaagcgacgacattgttgaagacgattttggtgataaagaggcgattgcccagcgtatt agccagcagtttaaatcgcgtcgcgtcgaggtgaaaaaattaatgctccaggacactgaggagggcgttaaggccttacaggagcagatgattcaagcggtggctcgtttgt tgcaagatattaagcacattgagttccagcagcatgtcgatttcgcccacggcggtgaattcgaatttggtcgcgagatcgcgctgggttatgaccttgggttaagggatttcg gctcaatggcctttaaaatcggcagctacgccttaagcggcgccacagtcggtagcgccttcccggtgatcggtacggccattggtgccgtagcaggcgctttagtcggcgt cgtcatgaccgttgtcggtttctttaccagcaaagcgtcgaaagttcgcaaagcgcaggggaaagtgcgcgacaagctagaaagcgccagagataaagcgctggacggt attgatgatgaggtccgtaacctggttgcggctatcgagaatgaactgaaaagcagcctgctgcaaaaagtgaatgccatgcatacggcattgcagcagccgatcgccatttt cgaacagcaaatcacgcaagtcacccatttaaaaaatcaactcgagaacatgccttatggaacaattcaaacagttcagtattgagaagcaggctgccattaactcgctgcta cagctgcgcggcatgctggaaacgctgggcgaaatggagatcgatgtcaacgacgatctgcaaaaaatcgcgtcggccatcacagccgttgagtccgacgtgttgcgcat tgccctgttgggggctttttcggacggtaaaaccagcgttatcgccgcctggctcggcaaaatcatggaagatatgaatatctcgatggacgaatcttctgaccgtctgagcat ctataagccggaaggattacccggagaatgtgagatcgtagataccccggggctgtttggtgataaagaacgagaaatagacggcaaacaggtgatgtatgaagatctcac caaacgttttatttccgaagcgcatctgcttttttacgttgtcgatgccactaatccgcttaaagagagtcacagcgccatcgcaaaatgggtgctacgcgatctgaataagctgt catcgaccatcttcatcatcaacaaaatggatgaagtgactgatttaaccgatcaggcgctgtttgcagaacaggcggccatcaaaaaagagaacctaaagggcaagctac agcgcgcggcaaacctgaatgcgctagagcttgaacagcttaatattgtttgcattgcttcaaatccaaacggtcgtggccttcccttctggttcaacaaacctgaacattacga aagccgctcacgcatcaacgatctcaaaacagttgccgctgagattctgaaaaccaatgttcccgaagtgctgctggcgaaaactggcatggatgtggtgaaagatatcgtc acccagcgtatcaccagcgcccagctgcatctcagcaaactcagcacgttcgttgcgaaaaatgatgaagatacttcgcgttttacatgcgatatccagcaaagccgtaacg aggtcaaacgtctggctggcgaaatgtttgaagaacttagtttgctggaaaagcagctgatgagccagctacgcccgttggagctggatggcattcgcccctttatggacga cgaactgggctataacgatgagggcgtcggctttaaattacacctgcgtattaagcatattgtggatcgcttttttgcgcaatcctccgccgtcacgcagcgactgtcggacga tattactcgtcagcttaattccagcgagagcttcttaagcggagttggcgaaggggcatttaaatccctcggcggcgtgtttaaagggatttccaaaattagcccggagacgat taaaaccacgatttttgctgcacgcgataccattgggcaattaacgggctatgtctacacctttaaaccgtgggaagcgaccaaactggctggcggcatcgctaagtgggctg gtccggccggggccgcatttaccatcggctctgatctatgggatgcctataaagcgcatgaacgtgagcgagagctggaagaggcgaaaaatgagttgacccggatgatc aaagatccgttcagcgatatctatagcgtcttgagttcagatgaaaagacgttcgctttctttgccccccagattcaagagatggaaaaagtcatttgcgatctgacagaaaaaa gcgacaccattcggaagagccagcaaaagctaagcatactccagcagaagctcgagcagtttaaccgttcgagcgagcagcaagtgtcctgatacacaaacggcagccc gcaggccacgtttagttataaatcaaactaaacgtggccaggtgacatgccccccgttgattaacacacgttatcgtcgggtggaaaggacaacctcctacgtccgcttcaca gcggacactcaggtttaacagtccagtacgtttagcttacggataaatcattttatgatgatgtggagaatgggggat (SEQ ID NO: 407) 44 Dcm + gacagcttccagggtatcgtggacgcgtcatgcaaagagatggggatgagggattttaatattctaccccttgtaccccatgccagtggtcgacctcataaatcattgattttaa HerA + aagcctcacttagggcgctcgctgccaccgatgccccacgatgcctgacgatcttcaacgactccccgcaaaagtccctatgcctcggaaaagccgccaaccccaacaac Vsr accacctaacaacaagaaacaggacctcgtgccgagcttgttagcgcgactgactagccgtccgaaagcaaaaacaccgcgagccaaacaaggcaatttcttgcccccct aaggaaccacctgaggattgaacaccagcgcagcttactgtatataaaaacagttaaagtcctgttctcaggctgcatctggatcacacagccgccgttactcggaaacacg gcggattagcgcgcacgctcaggccctccagccctaacggaatatgaatatccagaaaatcaaacacatatcagcctcacgcagcgcatagcgccctgccagaacacag caggaagtcattgcgtttgcgttcctggcaatccatcattcacggttagggcccctataagacctgcagaagcagcgcgccatgggcagacccggcaaaagcccccaaac gggtgtggagaagctttatggagaaggaaatcccccacgaaggattcacaggctctagtaaagagccgctccagacgctccttccctttaatatcgatgaacccgggcagg agcccatgaaaatccaagatttccccccactccccgcctccgaacagccgttgatgtttgcagacttgtttgcaggctgtggtggcctgtccctcggtctctcactttcaggcat gaacggcgtgtttgccatcgaacgcgacaagatggctttctcgaccctatccgccaacttgcttgaagggcggaaggtgccggctccgcagttttcatggccctcatggcta ggcaagaaagcctgggcaatcgacgaggttctcgaaaagcacccgattgagctcagtcagctaaagggcaagatccatgtcttggcaggaggaccaccctgccaaggttt cagctttgcaggaaaaaggaatgaatccgacccccgcaacaagctgttcgagaagtacgtcgaaatggtccaggccatccgaccatcggcccttgtcctggaaaatgtccc tggaatgaaggtggcgcacgccacaaagaaatggaagcaactaggtatctcgatcaagccccagtcctactacgacaagctggtagagagtctggacaggatcggatac cacgtccagggcaatatcgtcgactcctctcgcttcggggtacctcagaagcgcccacgcctgatagtaattgggctcagaaaggacctggcccagcacctcgaaggcgg ggtagcccgagcctttgtgctgctagaggaagcccggctcaagcagctacaagagttcgaccttcccgaggccatccatgccgaggatgccatctcggatatggagatag gtcacgcgggaacgaggccctgcaatgaccctgactcccctaggaaattcgaagagattgcctataccggccctcgaacggcgttccaaaggctcatgcatcgaggctgt gatggcaccatcgatagcttgcgcctcgccaggcacaagccagagataaaggctaggttccaggcgatcatcgacgaccccaactgtgccaagggcgtacggatgaacg ccgagatacgccaagcatatggactcaagaaacaccgcatctacccaatgcaggccagcgctccggctcccactatcacgacactgccggacgatgtcctccactacaag gagcccaggatactgaccgttcgggagtctgctcgactgcagtcattcccggactggttccagttccgaggaaaattcaccactggcggtagccaacggacgaaggagtg cccgcgctacacccaggtgggcaacgcggtaccaccttatttggcacgcgccgtcggcttggctatcaaggcaatgttggatgaggccgtgatgctcgccggccaacagg cagagcgagaacaagaagagaaaatgatagccatcgcttgaacacataggagtcgaggggaatggatagctcccaactggaaggggcgcaatacccggccgcgcttgt cgactgggccggccatcactcaggaggcgtaaaaaggctgctggataaaaatagcggccagcctaacaagcagctgctacggacgaaccttttgtcccgtctccaggcct gggctaacaggcttcccaccgagacctcagctgtccccaggattgtcctgcttgtgggtggtcccgggaatgggaagacagaggcaatcgagtgcaccatccgctggctc gacgagagcctcggctgcgatggccggttggtcgaggaactctcgaaagccttccatccctcaaccggctccgcagtcccccggctggccagggtagatgccggcagcc ttgccaagctagatagcagactgagcctcgacattgtccaggatgcctctgctaccgccgggcatgagggaagcaccgcccccgtccttcttatagaggagcttgccaggc tactggatggacctccgacccaagcctatctctgctgtgtcaatcgtggtgtcctcgatgatgccctgatccacgcaatagacaacaatctggaacaagcacgaactcttctcg aggcggttacccgggctgtaagcctggcgtacaacgcgccttcatgctggcccctcgagggtttcccatccattgcagtctggccgatggatgccgagtcgctcttggtaaa gccggacgacgagcccgtagcccctgccgagatactcctaggccaagccactgctcccgatatgtggccagcgaaaggggaatgcccagcaggcgacaaatgcccttt ctgcgccagccaggccatcctcgcgcgggatgagaacagggcatccttgctgaagatattgcgctggtatgagctcgccagtggcaagcgttggagtttccgggacctgtt ctccctcacctcgtacttgctagcaggccaccatcctgtagtccacgatccctcagggactccccaccagtccactccttgccaatgggctgcgaaccttgtcgacctcgacc aaaaggccctaacggcgaaaaggcatggcaagcagtcgctaactgccattttccacctgtcgacttcgagctaccaacatgcgctcttccatcgctgggacaaggacgcag ctacctcgctccgccgcgacctcaaggatcttggcctcgagaaggaactcgagatggaggaagggcgaaccctaatggggcttgtctatttcctttcggagcgcaaaagcc actatctcccagcgaccatcgcccctctgctggaggggctggtcgaaacgctagatccagccttcgcaagcccagacggagaagttgcagtcagcagtcgaaacacaata gtcctcggcgacttggatatgcgtttcagtcggtccctggccggaggtattgaattcgttcgtaagtaccaggtgctatcgccaaacgagctcgatttactccggcgcctatcc gcatcagacgccatgctttcgttaccgagcatacggcgcaagaggccggtggccgccagccgagtccagcacgtcctccgtgatttcgcatgtcgcctagtacgcagaag catatgcacccggacggccatcgtggcggacgctcccattctcgaggcattccagcaggtcgtcgaggacagcgacaagcaccatcacctcttcaaggtggtaaggcaa gtaaaggaattgctgaacactgggaaggagttcgaggtgtcactaaccactacctttggccaaccactcccccctcgacaacgccaggcaacgctggtcgtcccgcagag cccggtccggatgtccccccagaacaacaagggacgccctcacccaccgatttgctatctccatgtcggccaagggcaatcagtccagccagtcccactgacctacgacc ttttcaaagccgtgaaggaactggaaagagggctctcacctgcatcccttccacgcacagtcgttgcactgctggacacgactaaggcccggctttccggcccgattgtccg cgaccatgaactactcgatgatgcccggatccgcatcggcgcagatggcacggtggtcggccgctcgtggaatggttttgctgaaagccgggaggacgacgtatgagcct tgcggatttcaagcagaccccgtggagcaaatcacatccgaactaccagaagtcggccctggcaatcagccctgcccctgagtatgcgagctcggaagtcctgcttgcctc gctctaccgaaccataggcttcgcaacagccagcgagggcggcgtgccgcaggccgggcgagatctagacaagcgtatccagaaactccgcgagaaacgccaatccc caccaacaggagcggtagtcggtgtagaggcttggaatactgtgcttcacgggatcctggagagcccgaagcttcccaaccagtcgtccaagcgtttcctccaggtaacgc ccatcgtacccggggccgcactcttctccgggtctgcccgtctgagcagcaactcgtggcccgcaggcagcttgattcgccgcatggtctgcctgggatcgatggatgggg agacggcgcaacgactttggcaacgcctcttcgctgcattgaacgtggacgacgaggacgatgtcttcgcacgctggcttgaccaagagacatcggcgtggaacccggg agcaagcaactgggcactctcgccaatacccgcggacgagatggtcacgttggagacggcagatttcctggggatcccctttctccccgcccggcgatttaccaaggacct acaggccatcatgcaggccaagggttcaatgacccgccggcagtggactagccttctcgaggcattgcttcgcctggcagccgcatcccacgtgacgtggctgtgcgacg tccacgccaggacttggagctgcctgtgggccgcactaacggatggcattgctccttccagtgaactggaagcaagacgggcgctgttcccggaagccccgcagtacatg acgtacgggggaaaagccctccaaggcatcaaggacaaggtgtctagctacctaaatgcccggctgggaatcaatgccctcctctggtctctggcgcagataggagctcc ctattctggcaacctctcctcgagcgccggaattgctgcactttgccagcatattcgtcagcacaaggccgagcttactcgcctaggcacgcttgagacgattgccgatgtgc gcgagcaagaagcccgtgcgcttctttgcaagaaaggcatcggctctaacctgctggagtttgcgcggcacgtccttgggcaacgccaggctgcagtcccattgctgagg gggtacgaccagggatacatcctgaagaagaaaggcagcagcccgtccagcccatgggttgtctccctcggccccgtcgccgtgcttgccttggtccactgcgcccttgc aggaatgggcggtccccgctcggtccaccggcttggacagcacctagaggcttatggcatggccgtggacaagcatgacattggcaggaacgacctgggccaccagttg cgaatgctcggcctagtgctagatagccccgatgccgaaagtggcatgctgctactccccccgttccccataaaccaagccagccagggcccggaacatgaatagacttg cacactggcttgccgccactgtccacgagaaagtcaggggctcgacacaagggttcggaggtaccagcctagaatatcggcttatcttccgcggcccacccctcgagcta ctcgaaccggcctacgacgagctggcccgcaacggagggatccaggtgccaagcggggcagacggaggactggtgaccctgccggtactgctccagtatccagccgg ccagctgcagggacccaggccacgcatcggagcatccggtaagtgtgacaacgaccacttgcttgatatacgcaacgaccctgccaaccctagctttattgccctggtccc gccgggactgcacaacaacctctcgatcgagtcaaccaccgacgaattcggattgggggcagccaccagcacggggcatgcatccttcgaacaatggtgggaggatgg ctttgtccagcaagcagtcaacgaggcgttgatcgctgccggcataacggacgcccagagggatgacgccaggggcctggtccgcgcaaccgcagcctcggtcgacga ggtggatccagacaagggaggtcatcgcgcggcctggcgcctactctcgcgcatctactcgatagcaaacgtgaatcaagggttgcctgcaggaacagcgctatcactgg catgtggtcttcccccaatgaaggagggaggaatttccgccaagactcagctttcggtcctgggaaaaatcgccgacgagcttgcggacggtttcaagactggcatcgagc gcctggcacaaggcgtccaacaaggggttgcgcaagcgctgcgcgaactgctttcccatctccactcgaattgcgacgtacctacggccttcgagcgtgccacagcggctt tctacctgcccagtgccgatattgaactggcgcctcctccatcctggtggaccacgctcaccaccgagcagtggacggaactacttgccgacgagcctgacgaggtcgtcg gcgagctaacgatccggtgtaccaatagtttgatccctatggggaaaggcttgccggccgtagtacgggacaaagtcgagctattgatttccacaagcgaagagagccaac caaaggagctcctgttgacaggcggatcctacggcaaggttccgacgtcattgccagcgggccctaatgggactaccagccacattgacctatttccctcctcccacaaagc gccaatgagctacaaggtttccgcggacggctgcaagcctgcgagcgtccgggtcatctccctcgcgagctggaagcccggaatactcgttacctgcaggcttgcgacaa agctctcgccaccgaggaagccccgcaagaactcagctgcgatggactgggaaacatccctgtcgctgccgggctccggtcgttatgagctccagctccaccttgctccg ggggcgagcattggaaaggtagaaggcttgccggacgatgccaccgaattcgaggagcagcgggagacaatcgaaccacggcaagttggggaatacgagtatctaata gaggtcgaggctgatggcaagtaccagctggacatcgcctttactgaagccggcgagcaagttccgaaggtctgccgggtatacctgacctgcgaagaggcaaaggagg aaggttgcaggagcgaattcgagcggctcatcaagctcaaccgacggcatctcgagaagttcgataccaaggctgttgtccatcttgaccggaacgcacgctcctccagcc tgcagtcgtgggtgctggaggatcagaacgtatccaattccttcaggccactggtgatcgcggacgactatgcgtcccggtgggcccctcctgactgggacgccccgcac ggccctgtactctcgaacgggcgtttccttcatgacccccgccccgaggccacgagcttccaacctcccaagggcttcatcgaggctcggcaggggatcgcccggtacat acgtggtagcgacgaccaatcggggctccttgagtcagcgccgcttggtgcctggctatccgaagaccctgggttccgctcccttgtcgaggactaccttggagcgttcatg tcttggctggacgccgacccgggtatcgcctgctggatcgacaccattgccgtctgctccctggagccggatggtcgtaccctgggaaggatcccagacgccatcatccttt cccccctgcacccattgcgcctcgcatggcactgcttcgcccagaaagtactccgtgacgaggccgagggcgaagccccgtgcccggcagcaagcatcctcgatccgg actgcgtccccgatctactgaccatctcgctgcaggcaccgggaggagtggatcaggtcgacttcctttccgtcgaatgcagctccgactactggtccgtgctttggaacgg atcccggctgggacaaatacccgatcgcgctcgccgggccccgttcgacagtagcttcgggctggcagttggagggatatcgagcgggttcagccccgcccaggtctca cgagcactcgacgacgtcaccgacctcctggcagccaagcctatcgtcagcctggtagtgtccagcgcaggtggcaccacggatgcatgcaacgaagggttggccacct ggtgcaccaagcgattcggcaacggggaccatgacaccccgcggcacggtgtcgggccaaggattgtggaggtattcgataccaggcaggctggccggcccgaccag gcgacgatcgccaacctctccgaggacacaggcaaccacgtccgctggtatgacaagcaaccaactgggtccaagccagacctgggcatcattgcccaactagattcgg cccaacccgaatccaaggaggtcggaatgctttcgccgatgggaaccggcggactgatcaggcaccgcgtcaggcgccaactccaagcctccttcctaagtgaatcccg gcagggcctgcagatgccaccctccggcgaaccgttcgcagataaggtttccgcatgcatgctcatgatggaaaggctcagggacggcaaggtcggcctgcagttctccc ctaatgtccatgcagtgtccagcatgctcgaggaaaacagcgctgggttcgtcgctgtatcgtcgtcagcaatcgaccccgcctgcttcctcggaggctggatacaagggac gtatctatgggactacgacctcccctcgtactcgcatcgcgcaggcgacacaagcggctactacctgttatcacaggtcaagcaggctgatcgcgatgcgctacggcgagt cttgaagccccttccgggatgcgaggatctggacgatgatcaggtcgagcaaatcctcctcgaggttgcgcggagggggattcctacggtgcgaggcctctccggggac gatacgggggcgacgggcgaccttggcctgttcctcgctgtccggctcctacaggatcagttccgtgtgacaggcaacaaggaaagcctgctgccggtgcttgccggatc accggaggactcgacgatagcaataatcatccccgtcgaccccttccggggttacctttccgatcttgcccgctcccttggcaaggagcgcaaggatacctccctgtcgcgt cccgatctgctggtagtgggcgtgcgcgcatgcagcgacaagatccacctgcaccttacgcccatagaggtcaagtgcaggcaaggagtagtcttcggtgcaggcgaatc aaccgaggcactctcccaagccaaggccctgtcgtcattgcttcgtgccatcgaggaacgtgcaggtagttctctggcatggcgccttgccttccagcacctgttgctctcaat ggttggctttggcctgcgagtctacagccagcatcaggcagtaggtgggcatgccggccgctgggctagctaccatgaacgtatcgctgcagccatactcagcccaaccc cgccgatcagcatcgatgagaaggggcggctgatcgtggtggacgcgtcgctccagagcagcccgcatgatcgcgatggcgacaagtacacagagaccattgtcatttc cagccgagatgccggtcgtatcatcgttgggaatgacgcacagtccttctatgatggcgtacgtgcaaaggtcgacgactgggggctgctaccctgccaggcaagtgcgg ccggcaccccaatcgtgcagcccgacatcactcccccggacgatgtccagacgggcgaccccatagtagtcccagcagaagatatccccggggcatccaccagtctggt cgatcagacatctaccggcgtagcggaaccaggggcaagccctgcccccccaactgacgagccagggacagggatcattctctctgttggcaagactgtggatggtttcg agcctcgatcactatccctgaacatatccgacacccggctcaaccagttgaacattggtgtcgttggcgacctcgggacaggcaagacccagttcctcaaatcgttaatcctg cagatatccagggcccgcgaggccaaccgcggaatcacgccaaggttcctgatcttcgactacaagcgcgactacagcagccaggactttgtcgaggccacgggcgcc aaggtggtgaaaccctatcgcctgcccctgaatctcttcgacaccacggggatgggggagtcctccgcaccatggctggacaggtttcgcttcttcgccgacgtactcgaca aggtgtattccggcatcggccccgtgcagcgggacaaacttaagggtgcagtccgcagcgcctacgaggtggctggtgggcaaggccgccagccaacgatctacgatat ccatgccgagtaccgagagctgctcgcagggaagtcggactcgccgatggctatcatcgacgacctagtggacatggaggtcttcgcgcgctcaggggaaacgaagcc gttcgacgagttcctggatggagtcgtggtgatatccctcgattccatggggcaggacgacaggagcaagaacctgctcgtcgccatcatgctgaatatgttctacgagaac atgctacgcacgccgaagcgccccttccttggcacgtccccacagctccgggccatcgactcgtacctattggtggacgaagcggacaacatcatgcgctatgagttcgac gtgctccgcaagttgctactgcagggccgcgagttcgggacgggcgtcatccttgcctcgcagtacctgcggcatttcaaggcaggggcaaccgactaccgggaaccatt gctgacctggttcatccacaaggtacccaacgcaacacccgcggagcttggagtactcggcttcacctcggacctggcagagctatcagagcgagtgaagacccttccca accaccactgtctctacaagtcattcgacgtggctggagaggtcatacggggactgcctttcttcgaactcaccaaccaagcctgaccaacgcccggcctgcgaatacagg ccgggcaaggaggctcctaatgacagacttcctttctcccgcagaacgctcggacaggatgtcacgtatccggggcaaggacacgcagcccgagctagcattacgcaag gtccttcaccggctcggactccgataccgattgcatggcgcggggctactaggcaagccagatctcgtgttcccgcgatacaggaccgtggtattcgtgcatgggtgcttct ggcataggcacaagggatgcaatatcgccacgatccctaagagcaacacacccttttggctggagaaattcgaaaagaatgtcgtacgtgacgcgcgagtagcaacagat ttgcaggccttgggatggacggtacttgtcgtatgggagtgtgaactgacatctgccaaaaaagcccagaagactggcgaacgcctatatgaggttatccgtagtcgtagcc acggaaagtatcggtaatcgactgaagcagccctgcggcctgtagtggtctactgatcccggacaccgatttaggcgaaaatcctcgccgtgagagaggtgtccg (SEQ ID NO: 408) 44 Dcm + cgaacggagcaggtagatccgcgctaactgacttgcccaatctggctgcattcgtccaacgctaggcggcttcgcaggaaaagcgaaacggagggagattctacgcgca HerA + cctttgtgcagacctgaggctccaccagacctgagagcccggcacgattgactgatcataggagtaaggccaagaagcgacttgatgcgcttgtaaggtaaattctcagcg Vsr aatcgaagtaatgacaccgaaacacgtgcggtcgacaaccgtgtaagattgctgataaaaagagcaggacgtcacaagaaatgaacttggaagtagtgccggcgagccg gactttcatcgacctcttctcgggatgcggaggtttgtcgctgggactttgccaggctggatggaaaggactcttcgccatcgagaaggccacggatgcgttcgagactttcc gggagaacttccttggtgagaactcccgctttgcctttgattggcccagctggttggagcagcgcgcacactccatcgatgacgttttggcactgcgcggtctacatttgtcga aaatgcggggtgaagtcgacctcatcgcgggtggtccgccatgtcaaggattctcgttcgcgggcaagcgaaacgcgaaggatccccgtaaccagctctcccagcggta cgtcgatttcgtcgagcgactccagccgaagtccctagttctggagaacgttcccggcatgaacgtcgcccataagtatgagcacgggaagagtcgcaagacttactacga aaagcttctgcattcgctttcaatagccggctacgtggtgtcggggcgtgtcttggacgcggctgacttcggcgtcccgcagcgccgcactcgactaattgccgttgggattc ggtcggatatcgcggataagcttgcatgcgcggctagctcgactcccgcagacgtgctcgagggcatcttcgatgcaatcaatcaggcaggcaagcgtcagctcgtccgat atggccagggcgcccatgtcacggttcgggacgcgatctctgatctcgcgattgggccggccgatcacgagaacaccgaagactacgtgggaagcgagcgatgtgcag gctacaggcaggtcaggtaccaggggccgaacacgccttaccagatcgccatggcttctggggtcaccccatccgaaatggacagcatgcgacttgcccgtcatcgtcct gatgtagaaaagcgcttcaaggcgatccttgaaacttgcccgcgaggggtcaacttgagcgccgagttgagggcgcagcatagaatgctgaagcataggacggtgccga tgcatcccgaaaagccggcgccaaccctgactaccctgccggatgacgtcctgcactaccgagacccgaggatcctgacggtccgggagtacgcccgaattcagtctttc ccggactggttccgtttcaagggcaaatacaccacgggcggggcgtcccgtcgtcatgagtgcccgcggtacacgcaggttggcaatgcggtcccgccgctgctcgggc aggccattggctcaggattaatggcgtgcctctctttgagttcaacgcgagtgataagggccagtgcgcccagtctcgcgatggccgagaaaaaggcttttgccgtatagca attagtcagctgcaagaatcgaacaggtggatagacgatgacgaaataccccgatggattgcttgattggtcgggcaatcgggctggaggagtcaagaaactcttctacgg cggcagcggccgccccgtcgggaaggtgatagagactcctctactcacccgtctctgggaatggtcggatagcgtcgtccagttcgagccgggcattccgcgggcggtgt tgctgttgggagggccgggaaacggcaagacagaggcaattgagcagacgcttcgccgaattgactcaaggcttgcgctgagcggagcgctcatcgacaagcttgcgg ctgtcttcgagtccaaggatggagtccccccaggacgccttgtggaggtggatcttggggcgctticaggggggcgctcgagcgggacaatctcgattgtccaagacgcct cggaggggaatccgggctctcctgatcttccggcgcaattgctctgcaacgacctagcaggactcgtcgaagacaacgtgtcaaagcgcatctatttagcgtgcataaatcg cggcgtcctagatgatgccctgatacttgcgacggaaagaggtgacacagaaattggtgctttgctgaagcaaatcatccggtcggtgtcgatggcggcccatggcgtctca tgctggcctctgcagggatatccgggcatcgcagtctggccaatggatgtggagaccttggtcgcaggcgtccagggtcaaccttcacccgcggagcaggttcttcatattg cggccaatgccgaccattggcctgatttcggggcatgcgaagcgggtcagtattgcccgttttgcacaagtcgcaggctcctttccggcgagccccatgcgggatctctcgc caagctgctccgatggtatgagctggcgagcggaaagcgctggaacttcagggacctgttttcccttgtcgcccacctgttggctggaacccctagcaatgccgatgcgtcc ggttattcgccctgcaaatgggcggcaaaacaactgaatccccccggcggcgacccgcgcaaggccgatgtactccgaaagcgcggagtctttcggttgctggcttccca ataccaacacgcgctctttggcgactggccaatcgagcatgcgtcgggtctccgaagagacatcgccgacctagggcttggtgatttcccggcgcttgtggctatccagca gttcctggcgctggataagcggcgggagtcgacggcaaccctccgtgcccagctctccggcatgtcatccgtattggatccagcaaaggcaagccccaccttcgaggtta gggtaagcgctaatactgttattcgttacgaagacttggataggcggttcagcctgtccatccaaggaggcagagagtacctccaagaatatcagtgcctctcggagatcga gatttcagcactcaaggtccttgaggaggccgacaataagttgtctgatcacttagtcaggcgatctcggccggcgacagcaattcgagtccaggcgcttctgagggccatc gcgtgcaggctggcaaggaggtcgattggcgtcaggtgttgtgtcacaaaggatgccgacgtcctcgaggagttccaccgcgtcaccaatggcgattcgtcggcgctgca gcaggcgatcaggcaggtcgaggcacttctcaacgtcaatcgccggttcgttgtttgtctcaacaacacctttggtgagccgctgcctcccccagagcggcgcgcgatgctt accacggacattcagcgcgttaagccggtgcccgccttggagggtgttgagcggccgagatcgccgatgcccttcctgagggtcggcgcacaaggcaacgccaggccc atagccctgaccttcgatctcttcaaggcgacgaaatcccttaggcgtggcatggtcgcgtcgtcacttccgaggtcggtggtcgcgcttctcgatacgacccgagctggtct tgcgggagcgatcgtgcgagacgaagacgctctggaaggtgcggagatccggatcggaatcagggatgaggtcatagtgcggacctttggaagtttcgtcatccgccag gagggtgcttgatgtccatgcaggagtttctcgcttcaccatggaagaaagaagcctcgcaccgagccttcaacgaatcctcttttggtatgaggtctgccccggagttcgca actggcgaggtcgtcctgtcttcgctctaccgcgccgtcggctttgacggggtttccgaggagaaagtgccctcgcttggcaatgatttcaggaaggcgctggacaaggaa cgcagaaagcagaacgcagctggtggtctgagcccagaagcctggcgcacggtcgtggatcgtgtcgtgcaaagtcctaaggttgcgcagcaatcctccaagcgattcct atcgctgtccccggtcgttcccgacgcggccatctactcgggcgccgcgcgccttggaggaaactcctggaacccggggcggctgatcaagcaaatggtcggaatcggg tcggagaccatggagggcgcggaaacgctttggggcgaactctacgatgctttgtccgtgacggaagcggatgatgtctgggcaagatggctccaaacagaatttagtccc aggcgcccagagcaaatagcgtgggccccaagaccgatggatcaaccagatttgcttccgcaatccgatagacggggagtttcctatcccgctcggcagttcgtggtgga cctgcgaggaatcttggatgcgaagtccgccatgacgcggcggcagtggatcacactgctcgaggcgctacttcgaattggatcggtcagccatgtgctgtggctgtgcga cgtcaatgaccgcttgtggcgtgcgatgcgtgcggcgctcgagggcgaggcgagtggcgtgcccgccgatgccgccgccataagaaccgacattctggccgtcaggcg gcggacgctctcgttcgggaatcccgctgtcccagcgattcgggacctggcctctcgatacctatccgcacgcctgggaatcaactgtgtcctttggacgctggacgaactt ggcgtgggctcaagtcgactttgttcgtccgaagaaatccttgacttcatcaagagcgttcaggccaacgcaggggggctcaaggcccgtggcgtcatggatgccttccatt ccctgcaagacaaggaagtcaggaccattggctgtaagaaaggagtcggagcaaaccttctggaattcagccagtacacgcttggacagaggcagacgatggaccagg cactccgcgggtacgaccagagctatttcctcaggaagaacggggatgccaggaacgcgccatgggttctatctctagggcccgctgccgtacttgcgatggtccactcgt gcctacatgcggtggatggaccgcgatcgatacaaaggctttcatcccatctcgggagctacggcatcgagtttgatctccacggcgtcaacgatagcgtccttggaaagca actccgaatgctcggactcgtactggatagcccggatgccgagagcggtatgctccttgtgcccccgttcgtagcctgaggaaggaggcaatgatgagcacgctagccaa gggaattgcaagctgggtcgaaaaagccatggcgcgtgagatcgcgacgctggtggccgggaatatggagtgtcgcgcagtcttctgcggcccgccaaagcacatcctg aatcaagtatttgggcatcttatccacggtcgatcgctgatcgaagcgacaagggccgatggtcaggcggttcagtatcccgtgatccttcaggtcgaccgcctccctacag ggtttcccatcggctccgccacacagtcgggatgccttcagttccatggactcgctgccgtcaggaacgacaggaatggtgttttcctagttcttgtcgagcccggtgctcaa gcgagcgatacgcatgaatcaactcgaacttcgcttggactcgagccatcggtaaacgagggcggtgcctcgatcattgcctggtggtctgatccattcattcagtcgcttgtt gattctgccctctcagaactctccggtcgcgacgccgcggctgccaaggatctactaaaggaggcgatgatcgccgccgacgcggcagatcagcacgaagtagcgaga gttggagcctggcgcgtcatcgaacggttgtgggagctaaaagaacgcggcttgtctcttgaccaactcgttagcttggccgccggattcccgccctctagcgacggaagta ttgaaccgagatccaagaccgccatcctttcagccatcgtggacaggatcgaagccgagaacttcggtggcttactgtcgtcccttctgcaaaaagccagggacgatatcga aaaagaacacatcaccgcgtgcctctcgaatatgaggggcaggtgcgatgtggttactgcggttcggcgatgtgcgccatatgcgtacatgccttcggacgccatcgctgg cgaagtctggtggaagtcgctcactgtcgagcgctgggaagagttgctcgatgatggcgctctacccgatgcgggcggcgacatcattattcagtgtgccaatccgatgattt cgcaccttaagggcatggttcccgtcgtcaagggatccgtgcaacttaggatcgaggttccagagaagtacgtgggcaggcggttggaggttatccgcgaggtcccgggt gcgaaggcggcgacgaaggtttggacagttgacgcggaacgcatgatccacgtcgaggacgacgagatccccccccacaagagtccgatgaagtactcggcaagcctc gaaggatcagccggaaagaaggcgagcgttcgaattgtctcaatggatggctggctccctggggtggttgcctctgcgacgacggcgacaaaaggttccctcccgaaac gctcaaaagcagcgaagttagaggcgtcgctgtctctctccgggcaggggaggcactaccttgacatctacttaaggccgggcgtcgagctcgcgtcaatgctcgccacc ggtagtgacgaggaaggaaatccagacccgtccatcacggcgccaatcggcatggtcgcggagggcgagttcggggtcgaaatcgaaatcgaaggggaatgcttcttc gacatcacgctcagggttccggaggttgcggatgatcaggtcatccggatcgaattgtcggcggagcaatcaagcccggaagagtgctcaagccacttcgaattgcagctc cttaagaactctagcggtcggaagcccagcgcggtccacgttaatgctcagctaagaagtgcgcagcttcaaggttggatgctggagcaggggcgcgctggtcgctcctat tatcccttcgttatggccgcggactatgccgccgactggcacaggcgggactggactggcgcagatgacacgatcttctcgaaggctagcttcctgtgcgatccccggccc tcgccggaagaaatggcgccgccgcaggctttcatagatgccagagccgcactggccgccaggatcaggggtggtgacggaaatggcttggtcgaaggtgtgccgctc ggtgagtggatggcaacggatcccgatttcgccggggaaatagacgtctacttgaaatcctacatgcactggcttgcgagcgatccagatggggcggtttggtgtgacgta gggttggtcgcgcggctcgagcctaacggacttaccttggtgcaagagccggatgcggtgatagttagcccgatgcatccggtaagacttgcttggcactgtgtggcccag cgagccatgttccttgccgcacgaaagagaccttgtccagccgccagcatcctcgatccggattgtgtgcccgatgcgatcactctcccactgagaaacgccatgggtggc aagaccaacgccacttttttctcggtcgaatgcagttcggactactggtcgattctttggaacgcggggcgcttggaagccctttcttcacatggggcgacagccccgcttgac cgggagtttggcctactcgtcggcggaatctccggtgggtttagtgtttcgcaggtgcacaaagcgctcgaggacatctgttcgatgctggtggcgaagccggtcgtcggc gtcctggtgtccagtaccgcgagccagaacaatgcgtgcaatgaaggtctgctttcctggggcaggaagtacttcggcggcggggatagggcggcaggcttggacgcct gggtcggggccagcgaggtcaggatctacgacgacagaccggaagatgcccggcctgatgatgcggagatttcaaatctggccgaggatacggcgaacgccgtgcact ggtattccggcacggtggccggcgaggctcccgatctagcgatcatcgcccagcttgagacctccaatcccggtgcactcccaaccaaactaaattctccgttgggcttcgg tgggctcgtgaggacccgaattcgggagccttccagcatggcggggggtcaactgctccgtgagtcgcgcatgtctggtcccgcggcgcccactggcgacgggctggc cgacgctgtagcaagtgccatctcgtcgctcgagaacatctcggagcaacgccttggttacgtattcgcccctagcattcatgtgatcaagggggcgctggagagcgcgga atttgccgcagtttcctcttcgagcgttgacccggcctgctttctcggaagttggttggagggcacctatctttgggactacgagctcccgtcgtactcaggtcgtgccggaga cagcaatggctactacttgttgtcacggatcaaggatctcgacctcgaaaccctgagaagcgtggtcaagaggttccccggttgcgaggagatgccggaagccgtgcttgc tggaatagtcgaggaggtcgcacggcgtggtattccaaccgtcaggggcctcgccgcaggtgattctggcgcgacgggtgatttggggctactcgtggccacgaggctg cttcaggatagcttccgggcggccgaatcaggcgctggtctcctgacgccttggcgcagggagggagacatcgaagagcttgctctcgtcattccggtggatccattccag ggctatcttgacgatctcgcgaaggcgctaaagcgccctacgctccaccgcccagacctattggtcgcgacggtgcgaatcagtgacctgggagttcaggtccgactgact cccatcgaggtcaagaaccggggtgctggagcggcgatgccgcaatccgatcgagaagccgcgcttgcccaggcacgctcgctggcatccctgctagatgcaatgctg gcaacgtattctgaggatcaagagatggttctctggcggattgcgcaccagaacctcttgacctcgatgatcgggtacgcattccgtgtttacagccaacgtctggcagccca aggcaagtcgggagactggtcgcgcctgcacgcacgagtcatggaagcaatcctgagctcccaggccgatgtgcgggtggattcgagaggccgcctgatcgtgatcgat ggctctagccaaagtggtccgagggatacagatggagatggtttccacgagactatcgagctctcgcacaaggatgctgcgcttttcatccgtggcgagcacgatgcgctct gcacggccatgaagcagaagctaggtggctgggaaatgttccctgaagggagggatgccggactctccaatcaatcgccgcccgtggcccatgagactgcgcccttggt ggatggcggcgttgaggtgccgtcccttcacgcgctccaagcaacggcggggcccgagggcagctcgctgccgtcttcgggagtcgaagccatgggcgcgtcgcagc cggcctccccgggagccatcgacgtggatggcggcatggcccagtccgggctgatcattcgggtcggtgaaacgatcgatgggtttgagagccaaattcggcggctgaa tcttggcaacacggccctgaaccaaatgaacatgggagtcgtcggcgatctggggaccggtaagacgcagctgctccagtctctggtttaccagatagccaaggggaaag atggaaatagaggtattgagccgagcgtcctcatcttcgactacaaaaaggattactcttcgaaggagttcgttgatgcggtagctgccagggtcattagccctcatcaccttc ctctcaacttgttcgatgtttcaactgcatcgcagtccatcaatccaaagctcgagcgctacaagttcttctccgacgttctggacaagatctattcagggatcgggccgaagca gcgagaccgccttaagaactccgtcaaggacgcatatgtgcaagccgccgaagggcagtatccaacgatttacgacgtccatcgaaattacgtagaagcacttgatggag gcgcggactccctgtcgggaatcctaggcgacctcgtagacatggagctcttcacgccggatccaagtgtcgttgtttcgtcggccgaattcctgcgcggagtggtcgtgat atcgctaaatgaacttggttccgatgaccggaccaagaacatgctcgtggccatcatgctcaacgtcttctacgagcacatgctgcggatacagaagcggcctttccttgggg agaaccgcaatatgcgtgttgtcgactccatgctgctcgttgacgaggccgacaacatcatgaagtatgaattcgacgtcctgcgtcgggtcctcctgcagggacgtgagttt ggcgtcggggtgatcctcgcttcgcagtacttgagtcacttcaaggcaggtgcgacggactaccgggagcctttgctttcctggttcatacacaaggtcccgaacgttcgtcc gcaggagctttcggcgcttggctttagtgatgcggtgggattgccgcaattggcggagcgtatccgtagccttggcgtccatgaatgtctctacaagactcatgacgtgcaag gtgagttcgtccgcggcgcgcccttctacagacggggtgagtgggccaaggaatgacttttcgtcgtgtcgatttatcgcctagttacgcttttggtcttaagttgcgttcctaag agaggtgggctgtgtccgacaatgcgtattacgtttatgcgctgaaagatccacggatggcgcccgcccagccgttctacataggtaaaggaaccgggacgcgctcccatg accatcttgtaaggccagacgattcaaagaagggaagcaagatctccgagatcatggcctcagggcgtcaggtgctggtaacccggctcgtggacgggctcacagaaga gcaagcgttgagaattgaggccgagcttattgccgcttttggcaccctcgatactggggggatgctcctgaattccgttctgccaagcgggttggtaaacaagagccgtagct cgctggttgtcccgtctggcgtaagggagaaggctcagattggtctggcccttctaaaggacgccgttctggagctggccaaggcgaatccgactggtatctcgaactccg atgctgcgagcatgctcggcctgcgtagcgactacggcggaggatcgaaggactatctgtcgtacagcctcctcgggctgctcatgcgggagggaaagctcgctcgggtt gccggcactaagcggcacgttgctcaagtgagctagctgtggggttccggatcgggctggcccgctcggcgctgcgctacgaagctcgcttgcctgccaaggatgctgc ggtcatcgaacgcatgaagcactacgccgcgctgtatccgcggttttgctatcgccggatccatatctatctggagcgcgagggcttccatctcggctgggaccggatgtt (SEQ ID NO: 409) 45 RecQ atttgcctgagacttatttcccgtggcgcttagctagctaagagtgggcatcgtgagcaccattgatgatatgaaatgacggtatagcaatttaaccgtctggatttcaccagaa attagtgattcaataggaaattaaatacgttttatatttcaatgtgtatcaaaatcattcctgaaatttcctggtgctatatttgatgaaaacggataaacattctgttgattttaataaaa ttctgtctttcgatttagagcttacgcgtgatgaaaagttaaggcatatgggggccgtgctggcggaacgcacgttgagtttgaagataaatcaggatgaagcgattcatcaatt ggatgaaatggcaggcgatgcagatttaatcctcggtcataacatactggatcatgatttaccctggattgccaaacaacgcgtacgtgctcaaatattattagataaaccaatc attgataccctttatttatcaccgctagcttttcccgcaaatccataccatcggctgattaaagactataaactggtaagagatagcattaacgatccagtgaatgacgctaaatta tcgcttcaggtattcaccgagcaaatatgtgcgctgcaagaaaagccgctggctcagttgcagctatatcagtatctttttgagcacggcgttgccagccatttcagtacacgtg ggatggccagcattttttccgcactgacgggtcaggcgtccatatccgccgtagttttacctacgctagttaaatcggttgctcagaataaagcatgccctaaccagcttaatcg ggttattggcgatgctcttaaacagcctttgcgcttactaccattggcttttgcctgtgcctggctccccgtatcgggagggaattctgttttaccgccctggatatggcgccgtttt cccgtcaccgctgatatcatccgcgaactgcgtgagcaaaaatgccagtctgaaacttgccgctactgctgtgaaaaccatgatgctcgtcggcatttacagaaaattttcgag ctgaacgattttcgtaaacttcctgatggctcgccgttacagcgcaatatcgttgagtacggattagctagtcgttcactgcttgggatattaccgactagcggagggaagtcttt atgttatcaacttcctgcgattgtcaggaatctgcgaaatggttctttaaccattgttatttcgcctttacaagcgctgatgaaagatcaagtggataatttacgtcataaggcaggt attaaaggcgttgaggccatttcagggatgctaactttacctgagcgcggcgctattcttgagcaggtccgtaagggggatattgcgattctttacctctctcctgagcaattac gtaaccgcgcggtaaaacaagctatcaagcaacgtcagattagtggatgggtttttgatgaggctcactgtttatcaaagtggggccatgattttcgtcctgactatctgtattgt ggcaaggttattgaatctttggcgcaggagcagtctgtgcagattcctccggtattttgctataccgcaacggcgaagttggatgtgattaatgatatttgtcggtattttgacaaa aaattatcgcacccattagctcgtttttcagggggagtagaaagaattaatcttcactatgaaatcattgcaagtaatggcttgagcaaaattagtcagattttgaatttgctcgata aatttttttctaatgatgatgaaggtgcatgcattatctattgcgcgacccgccgttcggtagatgaaatcagcgatgtgttgacccaacagcaacctttaccggttgctcgttttta tgcccggcttgaaaatagtgaaaagaaagaaatccttgaagggtttattgctaaccgttatcgagttatttgtgctactaatgcctttggcatgggaatagacaaagaaaatgtac gtttagtaatacatgcggagatccccggttctctggaaaattatctccaggaggcagggcgtgctgggcgggatacgctggacgcgcattgtgtgctattatttgatgagcag gacattgaaaaacagtttcgccttcaggctattagtgaagtaagctttaaagatatttatgcaatatttaagggaatcaaaaagaaagttaatgaaaataatgaagtcgttgccac aagtattgagctaattaatcatcctatggttaaaaccagtttctctatcgatgataacaatgcggatactaaagttaaaacggggatagcgtggctggaacgtgttggttatgtgg agcgacttgataatataactcaggtttttcagggaaaagtggcctttccttctctggaagaagcgcaaagtaagatggcagcgctgcacttgaatcctgcggcgatggttctct ggaatgctgttttacaggcgctattaaatgctaatgacgatgacggacttagtgccgacagcattgctgatgaggttgcccaatttcttccgcataaagaaaataatacgtcagg aattgaagcaaaagatgttatgcgcgtattgacacagatggctgatgttggcctggtcaccaggggaatgctgctgaccgtacgtatgcgccccaaagggaaagataatgc gaggatcacaactgagttaattcacaatattgaaatcgccatgttagggctgctgcgcgaagctcatcctgatattgaactggggatgccatggcctctccagattgcggttat gaatcaagagattattcagcaaggctatgatagaagtaataccacgttactacaaaatatattatttagctggtctcaggatgctcgagcaaacggtcataaagggcttattgatt ttcgttatggtacaaggaacagctaccagattattatgtatcgtgactgggcatatatcgaaagagccattttacaacgtcatcgtgtgacaagctccgtactgaattttatttatca attggcattggatagtgatgaaagcagtatcaaaaaagtgatgctttctttctcactggaacaggttatcgattatttaagaaaagatgttgatattattccaatgatccaacagag acaggggggggatgagcagcagtggctgatggctggtgcagaacgtgctctactttatcttcatgaacaacatgccattgtgctgcaaaatgggctggctgttttccggaca gcgatgagcttgaaattgcaggctgaaaaatcgcaacggtatgtcaaagctgattatgaaccactggctctccattatcagcaaaagacgcttcagatccatgtgatgaatga atacgccaggcttggtcttgaaaaacctaactatgcccaacggctcgtacaggattactttgctatggatgccgagtcatttgttccactttattttaaagggcggcgaaaaattct cgatctggcaaccagcgaaagctcatggaaacgcattgttgaaaatttgcataatcccgatcaggagcaaattgtgcaggcgagccttgaacaaaatacgttagttcttgccg gaccaggctcagggaaaagtaaagttattatccatcgatgcgcctatcttttacgcgtgaagcaggtcgacccgcgtaaaatcctgttgctctgctataaccgtaacgcagcg atttccttaagacgcagattgaagtcgttgcttggtaaagatggcgccagcataatggtacaaaccttccacggattagcattgagccttacgggataccagattgagcggaa agataatgacgaaatcgattttgataacctgctctggaaagcaatagctttactcaaaggcgatgaaacgcagctcgggttagaagttgaagaacaacgtgaatacctcctcg gcgggcttgagtatttactagtggatgaatatcaggatattgatgagccacagtatcagctgattgccgcgctggcaggtaaaaatgaaagtgaagatgatgctcgtcttaatct catggcggtgggtgatgacgatcaatctatttatggtttccgtgatgccagcgtgcgatttattcgtttgtttgaaagcgattactccgcccgtactcattttttaacgtggaattacc gctctacggccaatattattgcatgttcaaattatcttatcagtcataatcaggggagaatgaaatgcgagcatccgatcgtaatcgatcgcgctcgccagatgcttccgccagg cggagagtggagcgcacttgaaccttcggaaggcaaagttgttatccagcattgtaccggcgcggctcagcaggcggcagaagtcgtgcgccaaattcagtatattcaacg gctgcagccggaatgccctcttgagaaaattgcggttattgcacgcaatgggctcgacaaaaaggagcttatttgggtccgttcagcccttgcggatgcaggtattccttgcc gctttgcgctggagaaagattatggtttccccattcgccactgtcgggagatcgccaattatctgctatggctacgagaaagagcgctcgagtcgctgacgccagcagagct gtgtcagcaactaccggggcgagaccaggcgaaccgttggcacgatattatttatgaattaattgagcaatgggagctaagccagggaggcgagccattacctgccgctta ttttgaacatttcatactggaatatttacatgcccagcacagccaggttcgctttggcctgggggttttgctgagcaccgtacatggcgtaaaaggtgaagagtttgagcatgtc attatattagatggaggttggcgtagttcgcactctctgcaacctgaaaataacgaagaagaacgaaggctcttttatgttggcatgacgcgagcgatatcccgacttgttattat gcatgatgatcgtgcgccaaatccctatatcgaacagttagatccagcggtcatcagccatactgctgcacaagccgttgcgcctgggatcttacgtcgtttctcgatcatcgg attgcgccagctctatatcagttttgcaggtggacatccggctggtcatcccattcattcgttacttaccgatatgcaggttggggatagcgtccaactggtctctgtcgggaata ccatcaaggtgaatgctaatcaatcggcaattgcgcagctttcaagtgccggaaagagccagtggcaattttctctttccgggatccgcaaaattgaagtgcttgccatgctac agcgcagcaaaacactaacagcagaggattatcaagttgcggtgaaagtggacaattggtatgtaccgatattattggttgaaacccgtgaagaagccgcttatgacaatatt acttgaagcagaatac (SEQ ID NO: 410) 46 Histidine aactcacccgctctgaacgagccccttgaaacacaagacaccgtttttcccttaccataagggataggcaaacgactgtgtttatgactaccagcagagacaaaaccatcga kinase + agtgctcggccacccatttgcgcctctaggttgctacgagactgcagaggatccatgtagcagattacctcggccatgaagctgctaacggaagcgaagccatagaccgta phospho- ggcgatacacgtacgtatggctttccggaagggcgatcctagtcaactgtctgatgtccgccaaatctttctcaatactggtcattcaccttttccttgaccggctgtcaggccca ribosyl- acgtgcattcagatcgtcgcctaaatttgttgcatcacgtagagtctgccgcgtgctcgcccctatgccagactagtctgatgtggcggatgagataggtcacgacggtggtg trans- gctcggtagagtcggcatcgccgagtcaacgatggaacgtaaggggcgtgaatgcaaatcagccgtaagctcaacctttatgagatcgaggatctctaccagtcgcttggt ferase acggattccaatctcaggcttcctatcagcatgagccacggcggggggttgggcgtggatgcttcgctggcccagttcatcgtcacctgggcacgtgcttgcgaaaaaacc gtccttcacctatatgcccccgctggcgacgacgccatgacgcaaatcacgcagttggcgcagagtgcttctgggttcttcgcgctgatcatgtgcagtgaagtccacgctca gaatcatcaactgatcgatcggcgggaagcgcttctggcgatcaggccccttgtcgatgcgatgttcgcaggcgaccttcgtaacacctccaacatccgaggcgcccgtcc aacggccatcaatctgttctgcgtgaacaacgcaaagcgtgagttcatcaagccgttttacttcgatcacgccgtgccgaaagtccagccgagatcttggttctcgactctcttg gagacgtcatcgaagctgatgaatgctcgcagtggacaaggggcactgcttaggtcaggtctcccggcattgggcagcgtgctttgggagttgatctccaacgctgaccag cacgctgtcactgatgtaggcgggaacaagtacaagaaggcgctgcgtggcacctccatcaaactcaaccgaatgagtcgtcaggatgcgctgatgtattcagaccaaga gccggagttggcgcgctttatcctgaagcatttcctgagagctgaggtactggacttcctggaagtctcggtcatcgacagcggtcctggactggcacggcggtggctgac ggcgaaggaggggcggccagtagaaagcctggaggagctgagtcttgaggctgagcttgaggccacgctcgattgcttcaaaaagcacattacatccaagccgcagtct ccgaactcgggtatggggctgcataacgctgttcaagcactcaacaagctcaaggcgttcgtacgcgttcggacgggtcggctttcactgcatcaggcttttcagggaagtg atgagattatggagttcgatccgtcgattcgatacggtggccgtgtgttggccgctgtggaaggcactgtcttcaccatctgcattccggtgagctgacatgttcgatctcatgg attttgaagtcgagttgcgtcagtcaggtaagccggttcatgtggtggttttcttcactggccctgatctcctcacagacacgcaagcggctcacgctctacagcaccaattgtc gggttacgtcatgcctgacctagtggtgtttctgatgcctggttacaccttggatgaattccgagcacaccaggcaaatgctacatcgcccctgatggcggagctaagccgta aaggcccaggctcgcctcgcacctacgcgagtgcgttctatgacgtgaatggtgccattaccgagtacgtcaatatctctggccctgaggagcagttcgaggaactcatcaa gcacaactctaacgctatcgcgaggactggcctgacccacctcgtcgaacgctccaacgtgctgaagaaggcgcctgcaggcttcttctactcaaagccctcttctcgggct tcgaactatttcattcgggcggaagacctgctctctgagaccttgcatgcccactacctggcgtttgcatgcctatctctcatcagtaaggcaacggaagatgggatggggac gcccgataccctgtatctggacacaatcgcattgctgcctctggcgctgtccatgcaggtgtacctcatgcgatttgagcagccgggctttgcgaatatccggtcattccattcg cacgaaggcctaatcaagggtgggcctttgcccaaggcagtttccgccctgtgtctcatttccgcatcgacccagtgcggcctcgcgcagcaatgggtgaaggtaaacagt gctccgccgacgcgcgtggccaccattctttcatttgagcgctcatcggactcctgctccgtcttgcacacactgaagcagcccgaagactttgaaatgttgggggagggtg aagcgagcgggattcgtctaattcggatccatggcgagcggttcgttgctgagcacagtgaaaccaagctgctgaacatcggcactgatcatgcgccgcccctgctgcaat ccaagttctactcgttcatgggggccaacctgttcagctgcttcacccatgaccggccaggactgaggcctcggacagtgcatgtcgataaagataacctggtggctgccag cgatttcggtgaatggttcgacagggtactgcttgaggaagctgtcgcgtcgacccgttggatcatccacgatgacgacgctgccagtgcggccctggccgatcgagcgat cgcttacttagggatgtgtggcgtcaaggtcggtaacaaggtctccttcgatgacttcgatgccaacacgaattttgacgggtctgtcatcgtcattgccgctgctgccgaacgt ggctcacgcctgcagagtgtgagccgacgcctgcgtaccgctcagcaatcgggtaccaggctttacattacgggggcactcttcgggcgcagctatcaactgatgaaggat ctgcagagcaacctgacgcaacctgccaaggatcacagccggtatgttttcaagacgtacatggagatcccggcagcggagcttgcctgcacgagtcattgggccgaaga gcagcggctgctcatctccttgcattcatttgcggaaactttctcgccagcgattacgcagcgcatggaagtatttgatcgcgcctctactggggggcttggtctgaacccatttt ggccgagcagtcacaccgggcagccgatgacacttagccgaggctttgcgtttgtcgacggtacgaaggatgtgaggggcgcgacgtcaacggatatttacctaaccatc ttgtggattctgcagaatgcccggtacagcggtaaggtgcagaacgccaagcggcttgagtccggtgagcttcagcaggtgctcctatcgccggatgtgttctcgcgcttcg acgatggcgttatccaggccgcattcttgcgcgcagcggtgccggcggagcttgactacagggctcatgaaacccacagcctggccatatcggacatcattcagcgcatc gccgcagggtacggacatgaacgtggtgaagccgccatggagtttgtcatggccttggctatcgggaagatacgactgcacaaggatgtcgataaccggctgcggagtaa cttgatcaatatcttgacgccgcacgttcaggagatccgttatctgctggatccgaattacgaatcaccgttgtgatcaatttccgctaacccgttgcatgcgaggtatccagtta ccggcaactcagctcatggctgagctgaaccctggttgctcttctagtttcgatggcttgccgattgccgggatcacccacctgcgtcggttctgcgacgaaggtctaagggc agggtggtggcacctggcttgctcattccgtttgacctcgccaccat (SEQ ID NO: 411) 47 PH- cgctcagtccggttggtggttttggttggtttggcgattgctcagatcgcacaatccgggctgagttccctttcagtgatctactattccgcgcagctatttagtggatataatcac TerB- gctttgaaaaaaaaacgggtcaattactcttcgccccacagcaacgaataaggagaaatttgtgagtaacgtcaacactttccttaaggaaaatttatcttcagtaagtaagaat DUF726 + gtttttgtggctcctggcatccctgaaaaaaaactgaataatgtcgctaaagcatttaatgttgtggataacttgaatactgtgctagccatttatgacaatacggtatttggtagcg TM caaaagatggcatcgtttttaccggtgaaaaactggtcataaaagaagcttttgaaagtccttatgacttgttctacagcaatattgaagcagtagaatatatagaagatgtcacg gtaaatgataaaggcaaggagaagcgaacagagtctgtttccctcaaactaaaaaatggcgaggtaaaacgaatcaaaggcttgatggagtgcaactataagaagttgagc gacattcttaagcataccatcagtgactttgatgagttcaaagaagaagatcagctcatcactcttgccgaaatgtcagaagctctcaaagtggcttatgtcaaaatcattgtgaa catggcgttctcagatgatggtcaggttgataaaaaagaatttgccgaaattctcttgttgatgacccgacttgagttaacgactgaatcccggtttacactgcgtagttatgtcg gttcagaatccagtctgataccggttgaagaattaattgcgatcattgaccgggaatgtgtcccaagccataacaaatcaataaaagtctctcttgttaaagacctgattagcattt tcatgagtgttaatgaaggtgaatataaaaaattcccgtttcttcagcaagtgcaacctttgctgggcgtaactgacgaagaaatagaactcgcagtaatggctattcagcaaga ttttaagatgttacgggaagatttttccgatgatgcgctgaaacgcagtatgaaagaacttacggcaaaagcaggtgcggtaggcgtgccactcgctgctgtctatctctctgg ctctgtcatcggtatgtccgcagcgggcatcacttctgggcttgcaacacttggacttggtggcgtgctgggtttttcaagtatggcaacaggtatcggtgttgcggtgttattag gtgtaggtgcctataaagggattcgtcatcttacgggtgccaatgaactggataaaaccaagcgccgggaactcatgcttaatgaagtcatcaagcagacacaatccacattg tccgcgctaattaatgatctaaattatatttctggaaagtttaacgacgccctggatgcgcataatcggcaaggagaaaaaattctaaaactccagaagatgatgaatgcattga ccggtgcagcagatgaattgaataagaaatctaataaaatgcaaaacagtgcactcaaacttaagtgccctgtttatcttgatgaggccaaactcagttcgctgacccgagag cccatcaaaaaacaattccatgatgttgttctttcattctacgaagaatatcttgttgaagagcaaaacgatgggaagagtgttgaagtgaaaaaacttaagatcaaagaaaacg cttccactcagcaattagagaaacttgccgcgatctttgaaggcatcggctatttcagagcgggggatgttattaaaggcaaactaactgggctattctcataatgaaaaaacc agatactcaggtatcggccttgctggtgcagaagcaccagcttgaacaaagcgagcatcaattgggtgaccttgatgctgctctagaagcgcttaacgctttgcaaactgata ccgaagcttctttagatgaaatgattttggctatggatggtgttctggaacactcaggtatcacgtttgatgaggatatccacacaacggtttctagtgaattcagcgattaccttg aatcctgtttgaccacgtcatcgtccagtatcagtaaactgtcgatgatagaaacaatagcgttcaccagcgatatggactgggaaacctattcccagtccatatcgcagtatgc ccataaacacaatatcgatttaatagtcgatccgtttagcgccctgatgtctccaatccaaagaattgctctggaaaaacgtattcaggaagacttgaccttaaagactgcccgc tgcgacaaatatgattacatgatcgctggcacctgtggcgttattggcggacttatcgatatttttctggtaggcgtacctggagcaggaaaactgacccagcttgcagataatg cagtggacggtgccgttgagaaattcgcttcagcctttggatggaagggcagttcagaagcaagcgattcgacaaaaagcgctatcggttttctggagagaaaattcaaaat caattatgaccatcggcatggcggagatgttgacggtttgttcaggatgaacacgaagaatcaccatattaaaagtctcgcccactccccggacttagtcggtttatttttctcga tcctggatcaatttaccagtacggcacattttgtggcagacggaaaattggtttccgtagataccgagacttttgagcttaaagggaataacgttgtctctaaggtatttagtggttt cgtaaactggctgggccaccttttctctgatatggcaggttcttccggtgcagcagggagaggctccggtatccccattcctttcttttcattacttcagtttattaatgtgggtgaa tttggccagcatcgccagtctttcgcaaccgtcgccgtccaggtttttgagaaagggtatgacttacggcatggattagcgatggcgatccccgtcatgattactgagttgcttg tgcgaatcacctggacggttaaacaacgttgctatcataagaaggactggggtgaatgtattccttcagcaaataaccctgaactcaggcgaatgttgcttgtggcgcatgga accttgtgtctgatggatgtaggagatgcggcacttcgttcaggaggcgaaatgattcagttcctcctgagaacgaacctcatcggctggacgaggtttggaattctagcgatt aaagaactccatgtctggtataaagcaggcggaattgatgccaatgctgtagatgaatatatggatcatgaacttcggcgaatgctaaaagcggggtagcgttacggctttgtt gaataacattacgtttgggtgcttggctgtaaaaagctaggcaatggcgtatctgtcgacgcaatgcagaaaaggcaacttaattgcgaaacagaaatgttcggtgagttgctt gaccgtcctatggcagctaagtgccagaagtcgacgttgctaacatcagtatgtactcatcggcacagtccatgtcagagctattaactatagataaaaattcaataattaataa aataagaaccatctttctaggtggttcttattattaacaataaatattacgatttcaacgagggttagaatg (SEQ ID NO: 412) 48 TerB + cctggtcctgccaattgctcccccagccatatgacataatccttttgaataatagggtttttatgcttgtactctagcccattcgcggtatcattttacgatctctcttccagttttatgc DUF279 + ttaccgcctttgcctatcgtagaacaatgccgggaagcgttatcagcgattaagggcaaggaatgggcttctggatatttgttattatgctggcggttatctggcttctgttttcca Lhr aaaagaaaaaatcgccgccccccagagtaaacaacaaaatcatcaccaaaataaatcattcatctcgacagaaatctctcaataagccagataacagcatgacaaatatgca helcase ttctcaggcctccgatgatgacgaactggcaacctttacttttgtgaacgggcagacggttgaatacagcaccagccgccagccgtcacgagaaaacgccgcccgtagcaa taccactccagcgcgatgggtcaaaccgggagaaagcatcaccattcaaaatgtcgtcattaatcacggttatttttatttcggcgggcggttaaaaacacattcatcaggaga atatggatatctttataacgatgactccgacgcttcgctggttaatgacgcttttcccatcgagcctggttcacggcattattatgatgagtcactgggatactggcccagctttgc cacactctcccctcgctgccgtggcgcctatcttgactggctggcaagcgatcgcagcgatgcgagctgccccgttggctatgtttttatctatttttacggtctagaacgccgc gtactggccgatggcacacaagaagccatttctgacgatgaattcaaagcattattcgaagagatatcgcgcctgagaaccgtatttcaggcaagcggttccttccggcattat gcaacgcagttgctggaaatgatgatcgttctccgaccgaagttgctttctatatataccgaaaacgaatatttctcatcgaggagttcattactgttcagattaaatctagcgact gtggtcgataaaggacaacctatttgtgccgctctggcactggcatggatatactattttcctgattacaccctgcgcacgcctgcccgtcgatgtcatgctgaattttccgcatt attcaaacagcgttatactcaaaaatacggtgacggtattgtcgtcaaacccaataaaacacggttgtatttaagctatacccccgccagtggtacgcttcgggaacttcaggta aaaaaacagatggatcttcccgatcccagcgttttaaaagccccagttcagaaattaatttctgttgcagaatcctgtatcaacgcgctggatgcctacagtcgctatctcggta aaaaagatgcctcaccaagtgatgtcgccgccatcatgctgcttcccgatgaaatactgaccgaagatgcagaacgtctatttgctgaatttaaacactgggcagatgagaaa atccgtgaacattcaggactggcgacagtggctgatttctgggccagactgggtatgcctgtaccggataagattaataagaaagaagccgagctgatgcaaaatttcgccc ggcgagcaggctacggcattgcgccggatatgcgctatcaccttgtcagaccggatccagaaggtcatcttgttttatttcctgaagggcatgcggaattctacgtaccgtcg gcggaatttacgtcagtctctgtggcgcttcggttgggtgccatgattgcacaaatggacaagcgcgtggatgttgctgaacaggccgcgctggagaaaacgattaatcata acgatgcgctgtcgccaacagaaaaacgttcgctgcacgcctacctcacctggcggctcaatacgcctgcaaatcaggctggtctgaaaggtaaaattgagcaactcagcg ataaagataaatccactattggcaacgtgattatcagcgtcgcctgcgcagatggaaaaatcgatccggctgaaatcaaacaactggaaaaaatctacgccagcctcggtct ggacagcagtgccgttaccagcgatatccaccgactgtcaaccgcagaaacaactccgacagctacgttacaaaccccatcagcgacgagcggcgcgttttctcttgatga acggatccttgcccgtcatgaatccgacacaacggacgtacgccagttactgaacaccatcttcaccgaagatgaacccgcagacgaatccccagcggagatcccgccac acgctggcgcaggtcttgatgaagcacatcatcaactttaccaacgtttgcaggaaaaagaacgctgggcgcgaaacgaagtcgctgagctatgccagcagtttaatttgat gctaagcggcgcgattgaagcaattaatgactggtctttcgaacaggttgacgccccggtgcttgatgatgacgatgatatttacgttgacctggaaattgcacaagaactcaa aggataatttatgtctggcattcgtattcgtctcaaagaaagagacgctattattcagtcactgaagtcaggtgttacgcctaaaattggtattcagcacattcaggttggccgggt caacgaaataaaagcgctgtatcaggatattgagcgtatcgctgatggcggcgcaggattccggctgattattggggaatatggctcaggtaagacattctttttaagcgttgt gcgctcaattgcgctagaaaaaaagctggtgacaatcagcgccgatttatccccggacaggcgcatccacgcgacgggtgggcaggcgcgtaacctctactccgagcta atgaaaaatctatccacccgaaataagccggatggaaacgcattattaagcgtggttgagcgctttatcacggaagccagaaaagaagcagaaagtacaaatgtgtcagttc cgacgattattcaccaaaagctcgccgccctgtctgatatggttggcggttacgatttcgccaaagtcattgaatgttactggcagggccacgagcaggataatgagacattg aaatcaaatgccatccgctggctaagaggtgaatacaccacgaaaaccgacgcccgtaacgatctgggtgtgcgcaccattatttctgatgcctctttctacgattcgctaaag ctgatgagcctgtttgtccgtcaggccggatacgcgggtctgctggtgaatctggatgagatggtcaatctgtataagctcagtaacactcaggcccgcgttgccaactatga acagatactgcgtattctgaatgactgcctgcaagggacggctgaatatatcggttttttacttggcggtacgccagaattcctgttcgatccgcgcaaggggttgtacagctac gaagcgctccagtcccgactggcggaaaatagcttcgctcagcgggctggtgtcattgattattcgtccccttccctgcacttagccagcctgacgccggaagaactctatatt ctgttgaaaaaccttcgtcacgtttattccggcggcgatgcggataagtatctggttcctgatgatgctctgacggcatttttacgccactgtagcaacactattggcgatgcctat ttccgtacgccacgaaacacgattaaagccttcctggatatgctggccgtgctggaacaaaacccatccattcagtggtcacagttaatcgccggtgtcgcgatcgcggaag aaaaacccagtgatatggatgaaataacatcggcagaagatgccgatgaggacggtctggccgacttcagattatgatgaacgaataccagcggctggatccacggatac agaagtggatataccggcagggatgggccgatctcagggaactgcaaaaaaaatccgtttcaccgatattagcgggcgatcgggatgttctgatcagcgccgcgactgcc gcaggtaaaacagaagcgtttttcctgcccgcctgttctgccattgcggatattcagggcggctttggcattttatacatcagcccgcttaaggccctgattaacgatcagtatc gaaggctggaaaacctcggtgatgcgttggagatgccggtcacgccctggcatggtgatgttgcgcagagcaaaaagctgaaagcaaagaagaatcctgccggtattttg cttatcaccccggaatcgctggaagcgatgctgatccgcaatgcgggatggttaaagcaggctttcgcgccactggcatatatcgccattgatgaattccatgctttcatcggtt ctgagcggggtatgcagcttctctctctgttaaatcgagtcgatcacctgctgggaagaatcaacaatccagtcccccgagtcgcactcagcgcaacgctgggggaactgg aacaggtgccgttatctctgcggccaaatcaacgtctgccctgtgacattattaccgacagtcagactcacgccacgctaaaagtacaggtgaaaggttatctggaaccgctg accacctcgggccagcaatctccaccgtcggcagagacgcaaatctgccatgatatctttcgcctctgtcgtggtgattcccatctggtgttcgctaatagtcgcaaacggac cgaaagcattgccgccacgcttagcgatctcagtgaagcgagcatcgttcccaatgagttctttccccatcacggatctctgtccagagatctgcgtgaaacgctggaacaga ggcttcaacaaggcaacttacccaccaccgccatctgtacgatgacgttagagcttggcatcgacatcggtaaagtcagctccgttgtgcaagttaccgccccccattccgta gccagcctgcgtcagcgaatgggacgctccggtcggcgcgactcgcctgccgtattgagaatgctgattgccgaacatgaactgacgccaacatcaggcattgtcgacca gctcaggcttcagcttgttcagtcgctggccatgatccgcttacttatcggcaacaaatggtttgagccagctgatacccggcagatgcactattccaccctgttccatcagatc ctggcgatcgtggcgcagtggggaggcgtgcgtgcggatcagatctggtcacagctatgcctgcaagggccatttcagaaagtccggatctatgacttcaaaacgttattga aacatatgggggagcaccagtttctgacccagctctcaagcggcgaactggttctgggcgtcgagggcgaacgtcaggtaaatcaatacaccttctacgccgtgttcagca cgccggaagagtttcgcattgtggcggggagcaaaacactgggctccattcccgttgattccccactgatgcctgatcaacacattattttcggcggtcgacgctggaaggta accgatatcgatagtgataaaaaagttatttatgtcgaggcgacaaagggtgggcagccgccgttatttggcggacaagggatgtccattcatgatgtcgtccgccaagaaat gctcactatttatcgggaaggcgactaccgcatcaccgttggcaatcgcaaggccgattttgccgataccacggccaaaaacctgtttgatgaagggctgcactgttttcgca acaataatctggcttcggaatgttttattcagcagagacagcatgtctacattcttccctggctaggcgatcaaaccgtaaacacgttgtcggcattacttatccaacgcggtttc aaggcgggctcatttgctggtgtggttgaagtagaaaaaactacggtctcggaggttaaacaagcgttattcagcgcacttcaggaagggctaccttacgaatcccgtcttgc cgaaagcatcgttgaaaagtgcctcgaaaaatatgatgagtatttacccgagacgttgctgacgcaggaatatggattacgtgcttttaatattgaacgcgtgacggagtggtt gcaggggcatttatattaaggggaagaaga (SEQ ID NO: 413)

TABLE 17 Genome coordinates of RADAR editing sites in Figure 27 Position in genome % A-to-I (Genbank: RNA Site # Gene GCA_000005845.2) editing  1 ffs  476502 82  2 dinQ 3647752 88  2 dinQ 3647753 57  3 ftsI   92547 90  4 lpp 1757597 52  5 rpsB  190414 76  6 ssrA 2755713 61  6 ssrA 2755714 56  7 (intergenic) 3647944 69  7 (intergenic) 3647945 97  8 hokB 1492029 95  9 mgrR 1622894 87  9 mgrR 1622895 87 10 ptsI (1) 2534135 80 11 secY 3443842 78 12 atpC 3915927 69 12 atpC 3915928 76 13 rbsB (1) 3937080 76 14 rpoA 3440833 74 15 rplI 4426356 73 16 (intergenic) 2002020 70 17 pflB  951380 68 17 pflB  951381 58 18 ptsI (2) 2534211 68 19 rplA (1) 4179468 66 19 rplA (1) 4179469 68 20 (intergenic)  127818 68 21 skp  200777 67 22 (intergenic) 2518138 51 22 (intergenic) 2518139 66 23 rbsB (2) 3937116 65 24 infC 1800153 65 25 rplT 1799499 64 26 gapA (1) 1863658 64 27 sodB 1735694 62 28 gapA (2) 1862864 61 29 rpsC 3449386 61 30 leuW  697012 61 31 rpsA  962878 60 32 ibsC 3056901 60 33 ahpC  639397 59 33 ahpC  639398 56 34 oxyS 4158372 59 35 rpmG 3811305 58 36 (intergenic)  780980 57 37 iscU 2660065 57 38 ryfD 2734233 56 39 deaD 3306635 56 40 hns 1292675 56 41 (intergenic) 4392565 56 42 tig  456390 56 42 tig  456391 56 43 rplA (2) 4178970 56 44 tsf  191433 51 44 tsf  191434 55 45 rnpB 3270434 54 46 (intergenic)  781019 54 46 (intergenic)  781020 52 47 eno 2906708 52 48 (intergenic) 3071334 51

TABLE 18A Description of phage T2 fragments in FIGS. 28C-28E Fragment Length A93% A121% Gene # (bp) editing editing # Accession Gene Description 1 2392 28 23 37 32 1 AYD82599.1 rIIA.1 hypothetical protein 2 AYD82598.1 rIIA protector from prophage-induced early lysis 2 1818 5 5 6 6 1 AYD82600.1 gp39 DNA topoisomerase II large subunit 3 261 6 6 8 9 1 AYD82601.1 gp39.1 hypothetical protein 4 1423 8 5 10 8 1 AYD82606.1 — hypothetical protein 2 AYD82605.1 cef modifier of suppressor tRNAs 3 AYD82604.1 goF mRNA metabolism modulator 4 AYD82603.1 gp39.2 hypothetical protein 5 AYD82602.1 — hypothetical protein 5 3570 6 9 7 11 1 AYD82613.1 srd anti-sigma factor 2 AYD82612.1 dda.1 hypothetical protein 3 AYD82611.1 dda DNA helicase 4 AYD82610.1 dexA.2 hypothetical protein 5 AYD82609.1 dexA.1 hypothetical protein 6 AYD82608.1 dexA exonuclease 7 1339 38 44 49 56 1 AYD82628.1 — hypothetical protein 2 AYD82627.1 dam DNA adenine methyltransferase 8 201 4 2 5 3 1 AYD82629.1 — hypothetical protein 9 442 1 1 2 2 1 AYD82635.1 dmd discriminator of mRNA degradation 2 AYD82634.1 gp61.4 hypothetical protein 10 2956 22 20 29 27 1 AYD82638.1 uvsX RecA-like recombination protein 2 AYD82637.1 gp40 head vertex assembly chaperone 3 AYD82636.1 gp41 helicase 11 2697 2 2 3 3 1 AYD82644.1 gp43 DNA polymerase 12 687 3 3 5 4 1 AYD82648.1 gp45 sliding clamp 13 588 85 85 93 92 1 AYD82650.1 gp45.2 hypothetical protein 2 AYD82649.1 rpbA RNA polymerase binding protein 14 1203 52 46 59 53 1 AYD82657.1 a-gt DNA alpha glucosyl transferase 15 545 27 22 48 40 1 AYD82664.1 gp55.2 hypothetical protein 2 AYD82663.1 gp55.1 hypothetical protein 16 3394 60 57 69 67 1 AYD82674.1 gp49 recombination endonuclease VII 2 AYD82673.1 nrdD anaerobic ribonucleotide reductase subunit 3 AYD82672.1 nrdG anaerobic NTP reductase small subunit 4 AYD82671.1 — hypothetical protein 5 AYD82670.1 gp55.8 hypothetical protein 6 AYD82669.1 nrdH glutaredoxin 18 2329 3 2 5 3 1 AYD82686.1 nrdC.5 hypothetical protein 19 528 5 5 8 8 1 AYD82689.1 nrdC.8 hypothetical protein 20 303 2 1 3 2 1 AYD82690.1 nrdC.9 hypothetical protein 21 2659 30 31 33 36 1 AYD82699.1 mobD.2 hypothetical protein 3 AYD82693.1 nrdC.11 hypothetical protein 22 902 6 6 7 7 1 AYD82706.1 rI.1 hypothetical protein 2 AYD82705.1 rI lysis inhibition regulator 3 AYD82704.1 rI.-1 hypothetical protein 23 2602 4 4 6 7 1 AYD82724.1 ip4 hypothetical protein 2 AYD82721.1 vs.7 hypothetical protein 3 AYD82720.1 vs.6 hypothetical protein 4 AYD82719.1 vs.5 hypothetical protein 5 AYD82718.1 vs.4 hypothetical protein 6 AYD82717.1 vs.3 hypothetical protein 24 495 6 5 10 8 1 AYD82725.1 e lysozyme murein hydrolase 25 594 7 5 9 8 1 AYD82730.1 e.6 hypothetical protein 26 177 3 3 4 4 1 AYD82731.1 — hypothetical protein 27 264 3 2 4 3 1 AYD82732.1 e.8 hypothetical protein 28 351 7 6 10 10 1 AYD82733.1 — hypothetical protein 29 402 5 4 8 5 1 AYD82734.1 trna.1 hypothetical protein 30 991 2 2 6 4 1 AYD82737.1 trna.4 putative membrane protein 2 AYD82736.1 trna.2 hypothetical protein 3 AYD82735.1 — hypothetical protein 31 309 6 5 8 9 1 AYD82738.1 ip7 hypothetical protein 32 255 20 19 26 25 1 AYD82739.1 ip5 hypothetical protein 33 1423 28 27 36 36 1 AYD82742.1 gp1 deoxynucleoside monophosphate kinase 2 AYD82741.1 gp57A chaperone for tail fiber formation 3 AYD82740.1 gp57B hypothetical protein 34 1277 54 54 69 72 1 AYD82745.1 gp50 head completion protein 2 AYD82744.1 gp2 DNA end protector protein 35 8107 2 2 3 3 1 AYD82755.1 gp9 baseplate wedge tail fiber connector 2 AYD82756.1 gp10 baseplate wedge subunit and tail pin 3 AYD82757.1 gp11 baseplate wedge subunit and tail pin 4 AYD82758.1 gp12 short tail fibers protein 5 AYD82759.1 wac fibritin 6 AYD82760.1 gp13 neck protein 7 AYD82761.1 gp14 neck protein 36 5149 33 37 46 50 1 AYD82762.1 gp15 tail sheath stabilizer and completion protein 2 AYD82763.1 gp16 small terminase protein 3 AYD82764.1 gp17 large terminase protein 4 AYD82765.1 gp18 tail sheath protein 37 492 4 4 6 6 1 AYD82766.1 gp19 tail tube protein 38 1284 2 3 3 4 1 AYD82773.1 gp24 capsid vertex protein 39 1476 35 33 45 40 1 AYD82863.1 gp24.3 hypothetical protein 2 AYD82775.1 gp24.2 hypothetical protein 40 1807 17 23 23 30 1 AYD82776.1 inh inhibitor of prohead protease 41 832 1 3 2 3 1 AYD82781.1 uvsY recombination, repair and ssDNA binding protein 2 AYD82780.1 uvsY.-1 hypothetical protein 3 AYD82779.1 uvsY.-2 hypothetical protein 42 1025 1 1 2 2 1 AYD82783.1 gp26 baseplate hub subunit 2 AYD82782.1 gp25 tail lysozyme 43 6240 1 1 1 1 1 AYD82784.1 gp51 baseplate hub assembly protein 2 AYD82785.1 gp27 baseplate hub subunit 3 AYD82786.1 gp28 baseplate hub distal subunit 4 AYD82787.1 gp29 baseplate hub subunit tail length determinator 5 AYD82788.1 gp48 baseplate subunit 6 AYD82789.1 gp54 baseplate subunit 44 291 1 1 2 2 1 AYD82790.1 alt.-3 hypothetical protein 45 4155 2 2 3 3 1 AYD82792.1 alt ADP-ribosyltransferase 2 AYD82791.1 alt.-1 hypothetical protein 46 366 6 7 8 9 1 AYD82801.1 gp30.7 hypothetical protein 47 177 6 6 9 9 1 AYD82802.1 gp30.9 hypothetical protein 48 249 2 3 3 4 1 AYD82803.1 rIII lysis inhibition accessory protein 49 336 1 2 2 2 1 AYD82804.1 gp31 head assembly cochaperone with GroEL 50 1698 4 3 6 4 1 AYD82809.1 cd.2 hypothetical protein 2 AYD82808.1 cd.1 hypothetical protein 3 AYD82807.1 cd deoxycytidylate deaminase 4 AYD82806.1 gp31.2 hypothetical protein 5 AYD82805.1 gp31.1 hypothetical protein 51 276 3 3 5 5 1 AYD82810.1 cd.3 hypothetical protein 52 3683 5 6 7 8 1 AYD82823.1 td thymidylate synthetase 2 AYD82822.1 nrdA.2 hypothetical protein 3 AYD82821.1 nrdA.1 hypothetical protein 4 AYD82820.1 nrdA ribonucleoside-diphosphate reductase subunit alpha 53 1448 45 62 58 69 1 AYD82827.1 frd.1 hypothetical protein 2 AYD82826.1 — hypothetical protein 3 AYD82825.1 frd dihydrofolate reductase 4 AYD82824.1 — hypothetical protein 54 366 1 2 2 3 1 AYD82828.1 frd.2 hypothetical protein 55 228 11 11 16 16 1 AYD82829.1 frd.3 hypothetical protein 56 909 2 3 3 4 1 AYD82830.1 gp32 single-stranded DNA binding protein 57 2162 40 48 51 67 1 AYD82834.1 rnh RnaseH 2 AYD82833.1 dsbA double-stranded DNA binding protein 3 AYD82832.1 gp33 late promoter transcription accessory protein 4 AYD82831.1 — hypothetical protein 58 4997 3 2 5 3 1 AYD82835.1 gp34 long tail fiber proximal subunit 2 AYD82836.1 gp35 hinge connector of long tail fiber proximal connector 59 417 42 48 46 54 1 AYD82859.1 — hypothetical protein 2 BBC14887.1 ndd.6 putative outer membrane protein 3 AYD82858.1 ndd.5 putative outer membrane protein 60 1166 26 27 29 31 1 AYD82862.1 rIIB protector from prophage-induced early lysis 2 AYD82861.1 denB.1 hypothetical protein

TABLE 18B DNA sequences of fragments #1-60 in Table 18A Frag- ment # DNA sequence  1 atgaaatcatatagagtaaatttagaactttttgataaagcagttcatcgagaatatagaatcattcaacgctttttcgatatgggagaagccgaagaatttaaaaaccgctttaaggatattagag ataaaattcaatccgacaccgcaactaaagatgaattactagaagttgctgaagttattaagcgtaatatgaattaatgaggaaattatgattatcaccactgaaaaagaaacaattcttggtaat ggttctaaatcaaaagcatttagcatcacagcatctcctaaagtatttaaaattctgtcatctgatttgtatacaaacaaaattcgcgcagtagtccgtgaattgattactaacatgattgatgccca tgctctcaatggaaatcctgaaaaatttatcattcaagttccaggacgattagatccgcgatttgtttgtcgagattttggtccgggtatgagtgattttgatattcagggtgatgataattctcctgg gctgtataattcatacttcagttcatctaaagctgaatctaatgatttcattggtggatttggtttaggttctaaatctccgtttagttatactgatacgtttagtattacttcataccataaaggtgaaatt cgtggttatgtagcttacatggatggtgatggcccacagattaaacctacattcgtaaaagaaatgggtccagatgataaaactggcattgaaatcgtagttccagttgaagaaaaagacttta gaaactttgcttatgaagtttcttatatcatgcggccgttcaaagatttggctatcattaatagtcttgaccgtgaaattgactattttccggattttgatgattattacggcgtaaatccagaaagata ctggcctgatcgtggtggattatatgctatctatggcggtattgtttatcctattgatggtgttattagagaccgcaactggttaagcattcgcaatgaagtgaattacattaagtttccaatgggttc acttgatattgctccatctcgcgaggctctttcacttgatgatcgtactcgtaaaaatattattgagcgagttaaagaactcagtgagcaagcatttaatgaagatgtaaaacgatttaaagaatct acatctcctcgtcacacatatcgtgaattgatgaagatggggtattctgctcgagattatatgattagtaattcagtcaaattcacgactaaaaatctgtcatataagaagatgcagagtatgtttg aacctgatagtaagttatgcaatgcaggagttgtgtatgaagtaaatcttgaccctcgactgaagcgcattaagcaaagtcatgaaacttcagccgttgcatcaagttatcgtctgtttggtatta atacaacaaaaattaatattgttattgataatattaaaaatcgtgttaatattgtccgtggattagcacgtgcgttagatgatagtgaatttaataacactttgaatattcatcacaatgagcgtcttct gtttattaacccagaagtagaatcgcagattgatttgcttcctgatattatggcaatgtttgaaagtgatgaagttaacattcattatttgtcagaaatcgaagctttagttaaaagctatattccaaa ggtagttaaaagtaaagctcctcgtcctaaagctgctacagcatttaagtttgaaattaaagacgggcgctgggaaaaagaggaactatttacacttacgtcagaagcagatgaaattactgg ttatgtagcgtatatgcatcgttctgatattttctctatggatggtactacatctctttgtaatccatctatgaatattttgattcgtatggctaatcttattggcattaatgaattttatgttattcgtccgctt ttacagaaaaaggtaaaagaactcggtcagtgccaatgtatttttgaaactctacgcgatttatatgtagatgcttttgatgatgtagattatgataagtatgtaggttattcaagttcagctaaacg atatattgataaaattatcaagtatcctgagctagattttatgatgaagtacttcagtgtagatgaagtttctgaagaatatacacgactcgctaatatggttagttcattacagggtgtatattttaat ggtggaaaagataccattggtcatgacatctggacagtaactaatctttttgatgtattatcaaataatgcttcaaaaaacagtgataaaatggttgctgagtttaccaagaaattccgtattgtttc cgacttcatcggatatcgcaactctttaagtgatgatgaagtttctcaaatcgctaaaactatgaaggcccttgcggcctaa (SEQ ID NO: 414)  2 atgattaagaatgaaattaaaattctgagcgatattgaacacatcaaaaagcgtagtggcatgtatattggctcttctgctaatgaaatgcatgagcgctttctgtttggtaaatgggaaagtgttc agtatgtacctggtcttgttaagcttattgatgaaattatcgataactcagtagatgaaggtattcgtactaagtttaaattagcaaataaaattaatgttactattaaaaacaatcaagtaacagttg aagataacggtcgtggtattccacaagcgatggttaaaacacctactggtgaagaaattcctggtccagttgctgcatggactattccaaaagcaggtggtaactttggtgatgataaagaac gcgtcaccggtggtatgaatggtgttggttctagtttgacaaacattttttctgtgatgtttgtcggtgaaactggcgatggtcaaaataatattgtagttcgttgttcaaatggcatggaaaataaa tcatgggaagatattcctggaaaatggaaaggaactcgtgttactttcattcctgattttatgtcatttgaaactaatgagctgtcccaagtttatcttgacattacacttgatcgtctccagacgctt gctgtagtttatcctgatattcaatttacctttaatggtaaaaaggttcagggcaattttaagaaatatgcacgacagtatgatgaacatgctattgttcaagaacaagaaaattgttctattgcggtt ggtcgttcaccggatggttttcgtcagttgacgtacgtcaataacattcatactaagaatggtggccatcatattgactgtgttatggatgatatttgtgaagaccttattccacaaatcaaacgta aattcaaaattgatgtaactaaagcacgtgttaaagaatgtttgactatcgttatgtttgttcgcgatatgaaaaacatgcgatttgactctcaaactaaagaacgacttacttctccttttggtgaaa ttcgtagtcatattcaacttgatgctaaaaagatttcacgcgctattctaaataatgaagcaattttaatgccaattattgaagcagcattagctcgtaaattggcggcggaaaaagcagcagag acaaaggcagctaaaaaagcttctaaagctaaggttcataaacatatcaaagcgaatctttgtggtaaagatgctgatactactcttttcttgactgagggtgattctgctatcggatatcttattg atgttcgtgataaagaacttcatggtggttatccattgcgtggtaaagttcttaatagctggggtatgtcatatgccgatatgcttaaaaacaaagaactatttgatatttgcgcaatcactggtcta gttcttggtgaaaaagctgaaaacttgaattatcataatattgctattatgactgatgctgaccatgatggtctaggaagcatttatccttctctgctcggattttttagtaattggccagaattgtttg agcaaggacgaattcgctttgtcaaaactcctgtaatcatcgctcaggtcggtaaaaaacaagaatggttttatacagtcgctgaatatgagagtgccaaagatgctctacctaaacatagcat ccgttatattaaaggacttggctctttggaaaaatctgaatatcgtgaaatgattcaaaatccagtatatgatgttgttaaacttcctgagaactggaaagagctttttgaaatgctcatgggagat aatgctgaccttcgtaaagaatggatgagccagtag (SEQ ID NO: 415)  3 atgaaatatattaatcgttctatcgcagcattagtattagcagtgtctttagtaggatgtactgatgctgataatgcaacaaaagttttgtcttcaagtggttttactaatattgaaatcactggatata attggtttggttgctctgaaaatgatttccagcatactggatttcgtgctattggacctaccgggcagaaagtagaaggaacagtatgttctggtttattcttcaaagattcgactatccgttttaaat aa (SEQ ID NO: 416)  4 atggaaaacttaattatcatcgagcaatctttcaacgattatggtatggcttatggttatcgtgcgataatggaagattctcgtggatgtgttatcgatattgctgaatgtaaagatttactgcagctt ttgaagattgttcgcaaaaattgggattgtgaaaatattaaagttcgaattgttacagaagaagaaactgtttttcatgatgtaaaattcgctaaaggtgctgctactcttctgaaacgtatcgctcc actgttcaattaatgaggaaattataatgaaacgtaaaattgttcagaactgcactaatgatgaatttgaagatgtattattcgatccagatttggtagtagttcaaaaggaacacaccatcaagttt actcacttgacttcggtttatgtgtatgagaaagtcggtgataaacaaccaatttacggtgtatttcgtgaaattactgaagatggcacaacttactggaaggaaatttattaatggctattaaattt gaagttaataaatggtatcaatttaaaaataaacaagctcaagaaaattttattaaagaccatactgataacggaatctatgcacgccgtttaggtatgcatccttttaaaattttagatgttgattat ctttggcgtcctactaaaattgtgacatctactggcacagttggatatgcaacacacggtgatatccttgacgaaaactttatctggctttctactaacgaagctgggttctttgatgaagtggaaa atccatatcaggcagttgaagagcaagagcaggaagagaaagagcaagaacaaatagaagatttcacagaattcccagtaatgaaagttactattgaaaataatgaacaggcatggtcctt gtatcaaatgctgaaagcacactttaaggaataattatgccaatgtatgattataaatgccaatccgaagattgcgggcatgaatatgaaaaaattaaaaagatttctgaacgagaaaatgatgt ttgccctaaatgtcatcgtttgtctactcgtcggccttctgctcctaagcatgtgaatggtggtttttacgacttacttaaagggtaattatgtttaaaatcggtaagaaatattgcattcgtgaaggt gaagaacagaaatatctactttctgctagtaataggaatagttctattaatgctgtaatattgactagtgaatttatcgttgaagatatgaaaggtcataatgttacaatgattagtacagcatctgg aaatgatggaaaaattcttcatagttgtcagagtaatgttctaatttatgatgaagaatttgacttcttcaaagaagtttccgaagattttgattttgaatgtactattactatgaaatctggtgaccctc tttcttttacagttagatga (SEQ ID NO: 417)  5 atgaagctgcataatatgtctaataatcaaattcgtaaaattaaacgtcgtttagagcatactcaggcatctgctaaaagacgttctaaagattttaacttagacttcaattacattaagaacatttta gaccaaaaagtttgcgcttactcgggagaaccttttgataatcgtattgaaggagagaaattatcattagaacgttttgataataacgttggatacattaaagggaatgttattgcagtaaagaaa aagtataatacatttcgttctgattatactttagaggagttaattgaaaaacgtgatttgtttgctttgcgaattggtcgttcatctgcgaaaaaagttcataaactaaatttagatgaaaagaaatgg gctaaaatcaaaaagacttataatcaaattaaagctatacagaaaaaacgtgaaaaccgaattgaacacatttctcagattctaaatcaaaacagacctctgacattaagctaagaattatagc acttaaagctcgtattgatggttctcgtatagcagaaggcgctgaagttgttaaattgaacgttcttcttaaaggctcggattggaaaactgtgaaaaagttgtcagaagcagaaatgcaatatg atatgtgtgataaaattattcaaggtgtagagcggtatcaaaacttgtcttttattgataaacttaaactgaaaagaggatatccgctaaattgttcaatttttaaacttatccgaggataatatggttt atgtatatgcgatagtttaccgagacaaagacggatttacggcgccagttccgcttgatgaacatcgtcctgctgtattttttgaatggaagattgctgataaagtatttaccactcttaaagagca gtatcaactagctttaggtaagggaattccaagattagttgagactccacgcaagttttggtttaataaaatagaagttaaacatgttaagcctgatgtagacacacaaagattatatcggcgaat tttagatactgggcgtattgttagtataccaattgcagggaatttacgatgacatttgatgatttgaccgaaggtcaaaaaaatgcctttaacattgttatgaaggctattaaagaaaagaaacatc atgtaactattaatggacctgctggtaccggtaagactactcttactaagttcatcattgaagctttaatatctacgggtgaaactggtattattttagcagctcctactcatgcagctaaaaagatt ctttcaaaactatcatggaaagaagcgagtactattcatagtattcttaaaattaacccagtaacatacgaagaaaacgttctttttgaacaaaaagaagtaccagatttagctaaatgcagggta ttaatctgcgatgaagtgtcaatgtatgatagaaagctatttaaaattctgctttcaactatcccgccgtggtgtactataattggaataggcgataataagcaaattagacctgttgacccagga gaaaatactgcttatatcagtccattctttacacacaaagatttttatcagtgtgaactcactgaagttaaacgcagtaatgctcctattattgatgtagctactgacgttcgtaacggtaagtggatt tatgataaagttgttgacgggcatggagtacgtggatttactggtgataccgctttacgcgattttatggtaaattatttttcaatcgtcaaatctttagatgatttgtttgaaaatcgcgtaatggcat ttacgaataaatctgttgataagttaaatagcattattcgtaaaaagatttttgaaactgataaagattttattgttggtgaaattattgtaatgcaggaaccattaattaaaacatataaaattgatgg aaagcctgtgtcagaaattatttttaataacggacaattagttcgtattatagaagcagagtatacatcaacgtttgttaaagctcgtggtgttcctggagaatacttaattcgtcattgggatttaac agtagaaacttacggcgatgatgaatattatcgtgaaaagattaaaataatttcatctgatgaagaactatataagtttaacctatttttaggtaaaacagcagaaacttataaaaattggaacaaa ggtggaaaagctccatggagtgatttttgggatgctaaatcacagttcagtaaagtgaaagcacttcctgcatcaacattccataaagcgcaaggtatgtctgtagaccgtgctttcatttatac accttgtattcattatgcagatgctgaattggctcaacaacttctttatgttggtgttacccgtggtcgttatgatgtattttatgtatgattaaatttgaggaagctattcgtggaaataactaaagatc agttttatcttcttcaagataaagtaagcgaaatttatgaaattgctcatggtaaaaatcgtgaaactgtaaaaattgaatctagtaagttgatgcttcaattagaagaaattgaacgagatttaattg cgttagaattcttttgtggcgaagtgaaaactgttacaattaatgattatgttttaggcgaaattagctatctttatgaggcgattattaatgattgaattaagttggtgccagtttaaatctcttatgac aaatgttaaagctgtcattgaagaaaatcagggtcctgaaaatattactattcgcgaaaaagctttaaagatagtatacagtcttgaagaaatacaaaaagatattgaatctatggcaaaatttatt gatgagcctattaataaagtttatattcaagactatactgtaggtcaaattcgcgatttagcgaggaaagtttaatgtttgattttattatagattttgaaacaatgggaagtggtgaaaaagcagct gttattgatttggctgtaattgcttttgaccctaatccagaagtcgttgaaacattcgatgaattagtttcacgtggcattaaaatcaaatttgatttaaaaagccaaaaaggacatcgtctttttacta aaagcactatcgaatggtggaaaaatcaatctcctgaagctcgaaaaaatattgcaccatcagatgaagatgtaagcactatcgatggtattgcaaaatttaatgattacatcaatgcacataat atcgatccttggaaatctcaaggctggtgtcgtggaatgtcatttgattttccaattttagtcgatctcattcgtgatattcaacgccttaatggtgtatctgagaatgagcttgacacatttaagttag aaccatgtaaattctggaatcagcgtgatattcgtaccagaattgaagcacttctgcttgttcgtgatatgaccacgtgtcctcttccaaaaggaactttagatggattcgttgcgcatgattctatt catgactgtgcgaaagacatcctgatgatgaagtatgctttgcgatatgctatgggtcttgaagatgctccatcagaggaagaatgcgatcctctatctcttccaacaaaacgataa (SEQ ID NO: 418)  7 atgattaataaaattgtgcatgaaatggctttaaacggagattcatataaaatatctgccgtagttgaaaatttcatacttaataaagtaaaagaatatttcactgattgttcagttagttatcaagaa aaaatggttttaattgatgatactgaaaaatcaaataatttgttttgctctaattttataactaaaaagcgtactagaagatttgatattgttatttctcgcaacggtaaaaagcatataattgaaattaa acaccaagttggtggaggtacagctattgattcggttggaatatatttagaagataaagagaaattaaaagaatacacaaaaactgaaaaccctgtgtcattgatgatattagattttttgccatg cggatattatccacgtaataaatggacaaaaagagaatcatttactgataatccaaccatccaagcaaggtttaatgaatatgctaaatcacaaaacgtgttagtattattatcaaatacatatgat gaagaattgtataattcatttttgctgcaataaatgagagaatataatgctaggagctatcgcgtatacgggtaataaacaatcattattacctgaacttaagcctcactttccgaaatatgacaga ttcgtggatttattttgtggaggtttatcagtgtctttgaacgtcaatggtcctgtattggccaatgatattcaagaaccaattattgaaatgtataagcgtcttattaatgtatcatgggatgacgtttt aaaagtaataaagcaatacaaactatcaaaaacatcaaaagaagagtttttgaaattacgtgaagattataataaaactagagatcctcttttactttatgttcttcattttcacgggtttagtaatat gattcgtataaacgataaaggaaattttactactccgtttggaaaaagaactataaacaaaaatagtgaaaaacgctttaatcactttaaacaaaattgtgataaaataatctttagttcattgcattt taaagatgtcaaaattctagacggcgattttgtatatgtggaccctccgtatcttataacagttgctgattataataaattttggtcagaagaagaagaaaaagaccttttaaatcttttagattcttta aatgacagaggaataaaatttggactgtcgaatgttttagagcatcacggaaaggaaaacactcttcttaaagaatggtctaaaaaatataatgttaagcatcttaataaaaaatacgtctttaac atatatcattccaaagaaaagaatggaactgatgaagtatatatttttaattaa (SEQ ID NO: 419)  8 atggtacaaaaattaatggcacttgttaatgccatcaaaggtaataaaaagcgtatagcttttactatttctgctatggtaggaattttactctggaactttattttatcacctgttgcaattgcacatg gtattaatattccaatagttactcttgatacattcgtagatttagcatttgctttagttgggttaatttaa (SEQ ID NO: 420)  9 atggaattggtaaaggtagtttttatggggtggtttaagaatgaaagcatgtttactaaagaaaccacaatgatgaaagatgacgttcaatgggctactactcaatatgctgaagttaataaagc attagttaaagctttcattgatgataagaaagtgtgtgaagtggattgccgaggataatatgcatattgttttatttaaacctactccgtataacgtcaggaaaaatacgcaattcaaagcacttatt gcagatacgtgggaattggtgttagatattccagcagaagaaagtcctccatttggtcgagtggaatttattaagtttgctgttcgccctacgaagcggcagattcgccaatgcaaaagatactt tcgtaagatcgttaagctagagaaacagtttgtaacatgtgattacgcaaaagttttaaaataa (SEQ ID NO: 421) 10 atgtctattgcagatttaaaatcccgtttgattaaagcttccacttctaaaatgactgctgagctgactacatctaaattctttaatgaaaaggatgtaatccgtacaaaaatcccaatgcttaatatt gctatttctggtgcgattgatggtggtatgcagtctggtttaactattttcgcagggccttctaaacactttaaatcaaatatgtctttgactatggttgcggcatatttgaacaaatatcctgacgcg gtttgtctattctatgatagcgaatttggtattactccagcttatttgcgatccatgggagttgacccggaacgagtaattcatacgccaattcagtcagttgaacagctgaaaattgatatggtga accagcttgaagctattgagcgtggtgaaaaggttattgtattcatcgactcaatcggtaatatggcttctaagaaagaaacggaagatgccttgaatgaaaaatctgtggcagatatgactcg tgctaaatcactgaagtcattattccgtattgttactccttattttagcattaaaaatattccgtgtgttgcggttaaccatacaattgaaacaattgaaatgtttagtaaaaccgtgatgacaggtggt acaggcgtaatgtattcggctgatactgtattcattatcggtaaacgtcagattaaagatggttctgatcttcaggggtatcaatttgttctaaatgtagaaaaatctcgtaccgttaaagaaaaaa gtaaattttttattgatgttaaatttgacggtggtatcgatccttattctggattgttagatatggctctagaattaggattcgtggtaaaacctaagaatggttggtatgctcgtgaatttcttgacgaa gaaaccggcgagatgattcgcgaagaaaaatcttggcgtgcaaaagatactaactgcactacattctggggtcctttatttaagcatcaaccattccgagatgctattaaacgtgcttatcagtt aggtgctattgatagtaatgaaattgttgaagctgaagttgatgaattgattaactcaaaggttgaaaaatttaaatctccagaaagtaaaagtaaatcagcagctgatttagaaactgacctcga acagttaagtgatatggaagaatttaatgaataaagatgatttagatttagatctagaaattatcgatgaatccccctcttcggagggggaagaagaaagaaaagaacgtctttttaatgagtct cttaagataattaaatccgctatggaaaatgttatccaggagattgtcattaaactagaagatggttctacacatatagtgtatgtaacaaaactggattgggttgatggaaaggttgtaatggac tttgctgttcttgaccaagaaagaaaagctgagttagctcctcatgtagaaaaatgtattacaatgcaattacaagatgcatttaataaaaggtcaaagaaaaaatttaaattcttttaaggagtaa gtgtggtagaaattattctttctcatctcatatttgatcaagcttatttttcaaaagtttggccatatatggattcagaatattttgaaagtggtccagctaaaaatacattcaaattaattaaatctcatgt taatgagtaccatagcgttccatctattaatgcgttaaatgttgcattagaaaatagttcatttactgaaacagaatattctggtgtaaaaacacttatttcaaaactagctgattctccggaagacc acagctggttagtaaaagaaacagaaaaatatgttcagcaaagggcgatgtttaatgctacgtctaaaataatcgaaattcaaactaatgctgagcttcctccggaaaaacgaaataagaaaa tgccggatgttggtgctattcctgacatcatgcgccaagcattatcaatttcatttgatagctacgttggtcatgattggatggatgactacgaagcacgttggctatcttatatgaataaagctcg taaggttccatttaaactcagaattctaaacaaaattactaaaggcggagctgagactggaacactgaacgttttaatggctggcgttaacgtcggtaagtcattaggattgtgttcattggcag cagattatttacagctcggacataatgttctttacatttcaatggaaatggcagaagaagtctgtgctaaacgtattgatgctaatatgcttgatgtttctcttgatgacattgatgatgggcatatttc ttacgctgagtataaaggaaaaatggaaaaatggcgtgagaaatctactctcggtcgtttaatcgttaaacagtatcctaccggtggagcagatgctaatacatttcgatcgcttttaaatgaatt gaagctcaaaaagaattttgttccaacaatcattattgtcgactatctaggtatttgtaaatcttgccgcattagagtttattcagaaaatagttacacaactgttaaagctattgcagaggaattgc gtgctctggctgttgaaaccgaaactgttctttggactgcagcacaggttggtaaacaagcttgggactcttccgatgttaacatgagcgatattgcagaatctgccggtcttccagcaacagc cgattttatgcttgcagtcattgaaaccgaggagctagcagctgctgaacaacaactcattaagcaaatcaaatcacgatatggtgataaaaacaaatggaataagtttttgatgggtgttcaaa aaggaaatcagaaatgggtagaaattgaacaagattctactccaactgaagtgaacgaagtagcaggttcacaacagattcaggctgagcagaatcgctatcaaagaaatgaatccactcg agctcagttagatgctttggcgaatgaattaaaattttag (SEQ ID NO: 422) 11 atgaaagaattttatatctctatcgaaacagtcggaaataatattattgaacgttatattgatgaaaacggaaaggaacgtactcgtgaagtagaatatcttccgactatgtttaggcattgtaagg aagagtcaaaatacaaagacatctatggtaaaaactgtgctcctcaaaaatttccatcaatgaaagatgctcgagattggatgaagcgaatggaagacatcggtctcgaagctctcggtatga acgattttaaactcgcttatatcagtgatacgtatggttcagaaattgtttatgaccgaaaatttgttcgtgtagctaactgtgacattgaggttactggtgataaatttcctgacccaatgaaagca gaatatgaaattgatgctatcactcattatgattcaattgacgaccgtttttatgttttcgaccttttgaattcaatgtacggttcagtatcaaaatgggatgcaaagttagctgctaagcttgactgtg aaggtggtgatgaagttcctcaagaaattcttgaccgagtaatttatatgccatttgataatgagcgtgatatgctcatggaatatattaatctctgggaacagaaacgacctgctatttttactggt tggaatattgaggggtttgacgttccgtatatcatgaatcgcgttaaaatgattctgggtgaacgcagtatgaaacgtttctctccaatcggtcgggtaaaatctaaactaattcaaaatatgtac ggtagcaaagaaatttattctattgatggcgtatctattcttgattatttagatttgtacaagaaattcgcttttactaatttgccgtcattctctttggaatcagttgctcaacatgaaaccaaaaaagg taaattaccatacgacggtcctattaataaacttcgtgagactaatcatcaacgatacattagttataacatcattgacgtagaatcagttcaagcaattgataaaattcgtgggtttatcgatctag ttttaagtatgtcttattatgctaaaatgcctttttctggtgtaatgagtcctattaaaacttgggatgctattatttttaactcattgaaaggtgaacacaaggttattcctcaacaaggttcgcacgtta aacagagttttccgggtgcatttgtatttgaacctaaaccaattgctcgtcgatacattatgagttttgacttgacgtctctgtatccgagcattattcgccaggttaacattagtcctgaaactattc gtggtcagtttaaagttcatccaattcatgaatatatcgcaggaacagctcctaaaccaagtgatgaatattcttgttctccgaatggatggatgtatgataagcatcaagaaggtatcattccaa aggaaatcgctaaagtatttttccagcgtaaagattggaaaaagaaaatgttcgctgaagaaatgaatgccgaagctattaaaaagattattatgaaaggcgcagggtcttgttcaactaaacc agaagttgaacgatatgttaagttcactgatgatttcttaaatgaactatcgaattatactgaatctgttcttaatagtctgattgaagaatgtgaaaaagcagctacacttgctaatacaaatcagc tgaaccgtaaaattcttattaacagtctttatggtgctcttggtaatattcatttccgttactatgatttacgaaatgctactgctatcacaatttttggtcaagttggtattcagtggattgctcgtaaaa ttaatgaatatctgaataaagtatgcggaactaatgatgaagatttcatcgcagcaggtgatactgattcggtatatgtttgtgtagataaagttattgaaaaagttggtcttgaccgattcaaaga gcagaacgatttggttgaattcatgaatcagtttggtaagaaaaagatggaacctatgattgatgttgcatatcgtgagttatgtgattatatgaataaccgcgagcatctgatgcatatggaccg tgaagctatttcttgccctccgcttggttcaaagggtgttggtggattttggaaagcgaaaaaacgttatgctctgaacgtttatgatatggaagataagcgatttgctgaaccgcatctaaaaat catgggtatggaaactcagcagagttcaacaccaaaagcagtgcaagaagcactcgaagaaagtattcgtcgtattcttcaggaaggcgaagagtctgtccaagaatattacaagaacttc gagaaagaatatcgtcaacttgactataaagttattgctgaagtaaaaactgcgaacgatatagcgaaatatgatgataaaggttggccaggatttaaatgtccgttccatattcgtggtgtgct aacttatcgtcgagctgttagtggtctgggtgtagctccaattttggatggaaataaagtaatggttcttccattacgtgaaggaaatccgtttggtgataagtgcattgcttggccatcgggtac agaacttccaaaagaaattcgttctgatgtactatcttggattgactactcaactttgttccaaaaatcgtttgttaaaccgcttgcgggtatgtgtgaatcggcaggtatggactatgaggaaaaa gcttcgttagacttcctgtttggctga (SEQ ID NO: 423) 12 atgaaactgtctaaagatactactgctctgcttaaaaatttcgctactattaactctggtattatgcttaaatccggtcaatttattatgactcgcgcagttaatggtacaacttatgcggaagcaaat atttctgacgttattgattttgatgtagcgatttacgatttgaacggttttctcggtattctgtctctagttaatgatgatgcagaaatttcccagtcagaagatggaaatattaaaattgctgatgctcg ttcaacaattttttggccagcagccgatccgagtacagtagttgctcctaataaaccaattccattcccggtagcatctgttgttactgaaattaaagctgaagaccttcaacaactgttgcgtgta tctcgtggtctgcaaattgatacaattgctatcacggtaaaagaaggtaaaatcgtaattaacggttttaataaagtagaagattctgctctgacccgtgttaaatattctttgactcttggtgattat gatggtgaaaatacatttaatttcattatcaatatggcaaatatgaaaatgcaaccaggaaattataaacttctgctctgggcaaaaggtaaacaaggtgctgctaaatttgaaggtgaacacgc gaattatgtagtagctcttgaagctgattctacccacgatttttaa (SEQ ID NO: 424) 13 atggaatattcaactggacagcatctattaactattcctgaaataaaacgatatattctgagaaataatttttctaatgaagagcatatagttactgaatctatgcttaggaatgcatttaaagcaga atatacaaaaataatgtccaatagaaatgaagcttggactgttactgattattatgactaaaggtgtattatgactaaaattactgtgaattatactgttgatgtaaaagatattcagccaaaacacg tgcgttctgaatcaaatccacaaaaccaaaataaaattcgtcgagcatgggttttgtctctttctgataacgcaatggaagttattcagaacaaaattaaatctgcacctgctcgtcatgcgtatta tgaagctatcgatcgtgaagtaagtaataaatggattgaactaatgcgcaaacatactacagaatccctaaacgccggtgctaaatttattatgacttcatgtggtgaacgccttgaagatgatt attgcggtaatgcagatgaacgtctaattgttgctgctcaaattgttgcggaaacaattgcggctgattttaatcgttaa (SEQ ID NO: 425) 14 atgaaagtatgtatttttatggctcgaggtcttgaaggttgcggtgtaactaaattttctcttgagcaacgtgattggtttattaaaaatggtcatgaagtaactttggtttatgctaaagataaatcatt tactcgtaactgtgcgcatgattataaatcattttcaattccggttttattggcaaaagaatacgataaaacacttaagctggtaaatgattgtgatattctaattatcaattcagttcctgctacttcag ttgaagaagacactattaataactataaaaaaattattgataacattaaaccttcggttcgtgttgtagtttatcaacatgaccattcttctctttctttgcgtcgaaatttgggattagaagaaactgtt cgtcgagctgatgttatttttagccattctgataatggtgattttaataaagttctgatgaaagaatggtatccagaaactgtttctctgtttgatgatattgaagaagcgccgacagtatataactttc agcctcctatggatattgcgaaggttcggtcaacctactggaaagatgtttctgaaattaacatgaatatcaaccgttggattggtcgtacgactacatggaaaggtttttatcagatgtttgatttt cacgaaaaacatcttaaacctgcaggactaagtactattatggaaggtctggaacgttctccagcgttcattcctattaaagaaaaaggaattccatacgagtattatcgtcttcatcaagtaga ccaaattaaaattgctcctaatttaccaacgcaaattcttgaccgttatgtaaatagcgaaatgcttgaacgcatgagtaaatccggatttggttatcagttgagtaagttggacaaaaaatatcta caacgttctttagaatatactcatctcgagcttggtgcatgtggaacaattcctgttttctggaaatcaacgggtgataatttaaaattccgtgttgataatactcctttgacctcgcatgatagcggt atcatttggtttgatgaaaatgacatggaatcaacattcgagcgtattaaagaactgtcatctgaccgaactctttatgaccgcgaacgtgaaaaagcatatgaatttttgtatcagcatcaagatt caagcttctgctttaaagaacagtttgacattattacaaaataa (SEQ ID NO: 426) 15 atgactattcaaattaaaaacgccatcaattcttacgcatatgataaagtagtttctttgttagaaaaaggcgatattgtaactcctcaaattttggataaatgggaaaaagagcttcatcagacga tgaaacagaatgatcagaagattggacgcaatactgtccgtgaattgttggttcaatatatcttgtcagaatttgatgttaaagcttttggtgtagaatctaaagcttatcaaaagcatgaaatttcc gataaaactattcgtcgcatgaaaaatcaacgcaagaaaaaatttgcagacctgaaaattactaaggtataattatgaacgaagctcttattaacgatttgcgtcttgctggatatgaagtaaata caaatggcattggtttaattcaaattgaaggaaacggattcatccttgagtatgaatttagccaatggtggttatacgctaattacggtgaattaattgaatatgttgaccaatttgattcactagatg cagctcttggagcggctaagctgatgaattcttga (SEQ ID NO: 427) 16 atgttattgactggcaaattatacaaagaagaaaaacaaaaattttataatgcacaaaacggtaaatgcttaatttgccaacgagaactaaatcctgatgttcaagctaatcacctcgaccatga ccatgaattaaatggaccaaaagcaggaaaggtgcgtggattgctttgtaatctctgcaatgccgcagaaggtcaaatgaagcacaaatttaatcgttctggcttaaagggacaaggggttg attatcttgaatggttagaaaatttacttacttacttaaaatccgattacacccaaaataatattcaccctaactttgttggagataaatcaaaggaattttctcgtttaggaaaagaggaaatgatgg ccgagatgcttcaaagaggatttgaatataatgaatctgacaccaaaacacagttaatagcttcattcaagaagcagcttagaaagagtttaaaatgacaattgaaaaagaaattgaaggattg attcataaaactaataaagaccttttaaacgagaatgctaataaagattctcgtgtttttccaactcaacgggaccttatggctggtattgtgtctaaacacattgccaaaaatatggtcccgtctttt attatgaaagcgcatgaaagcggaattattcatttccatgatattgattattcccctgctcttccatttactaattgctgtttagtagatttaaaaggaatgcttgaaaacggatttaagcttggtaatg cacagattgaaactcctaaatcaattggcgttgctactgcaattatggcacaaattactgcacaggttgcttctcaccaatacggcggaacgacttttgccaatgtagataaagtactttctcctta tgttaaacgcacatatgcaaaacatattgaggatgcagaaaaatggcaaatcgctgatgcgttgaattatgctcaatctaaaacagaaaaagacgtatacgatgcattccaagcttatgaatat gaagtaaatactctctttagttcaaacggacaaacgccttttgtaacaattacatttggtacgggaactgactggactgaacgaatgattcagaaagcaattctgaaaaatcgcattaaaggtctt ggccgtgatgggataactcctattttccctaagcttgttatgttcgttgaagaaggtgttaatctttataaagacgatccgaactatgatattaagcagcttgctttagagtgtgcaagcaaaagga tgtatcctgatattatttcagctaagaacaataaagctatcactggttcatctgttcctgtttctccaatgggttgccgtagtttcttgggcgtatggaaagattcgactggcaatgaaattcttgatg gacgtaataatcttggtgttgtaacactgaatcttcctcgcatcgcgttagattcttatattggaacacagttcaatgaacagaaatttgttgaattgttcaatgaacgaatggatttatgttttgaag ctttgatgtgtagaattagttccttaaaaggagttaaagctactgttgctcctattctttaccaagaaggtgcattcggggttcgtcttaaacctgatgacgacataattgagttatttaaaaacggta gaagttcagtgtctttaggatacattggtattcacgaattgaatattcttgtcggtcgtgatattggacgagaaattttaactaaaatgaatgctcatcttaaacagtggactgaaagaaccggattt gcttttagtttatattctactcctgctgaaaacctttgttatcgcttctgtaaactcgatacagaaaaatatggaagcgtaaaagatgttaccgataaaggctggtacactaacagtttccatgtttca gtagaagaaaatattactccgtttgaaaagatttctcgtgaagcgccatatcatttcattgcgacaggtggtcacatttcttatgttgaacttcctgatatgaaaaataacttaaagggtcttgaggc cgtatgggattatgctgcacaacatttagattattttggtgttaacatgccggtagataaatgttttacatgtggaagtacccatgaaatgactcctactgaaaacggatttgtttgttctatttgtgg agaaactgatcctaaaaagatgaacacaataagaagaacgtgtggttatttgggaaatccgaacgaacgtggatttaatctcggcaaaaataaagaaatcatgcatagggttaagcatcaat gaattatgatagattttatccttgcgattttgtgaatggccctggttgcagggtcgttcttttcgttacaggttgtttgcataaatgtgaagggtgttataataaatcaacatggaatgctagaaatgg tattccattcactggtgaaacactagaacaattaattgaatgtttgaataatgattatatagaaggattgactataactggaggagaccctctctatccggataatcgagatgtcattcattgcattg ttcaaacagtaaaaaatctttatcccaataaaagcatttggttgtggacaggatataagtttgaagatattaaacaactagaaatgcttaaatatgttgatgttattattgatgggaagtatgagaaa aatcttccgactaaaaagctgtggcgaggatcagataatcagcgactttggtcaaataccgatggggtgtggaaacatgattaaattgaattacattatggatactataaatgatatgatttttcat tttggtccagaattttattcccaatatagtttagtgcttatcaatgcttggttaattaattaagggtaaaatatgtataaatttcgtaaaggtttagctgattttcttacaactgtaacattctttctgtttatg gcagttggagctattttccttattccttttattgctatatttttcgtgattagtttaatttctccagaaaagggcttatcttccagtgagttcaatgagcgcctggataaaattactaacaagctgaatgct gctcttagtaaggaatagttgtgaaacaaaataagattgaagtctatggaattccagatgaagtaggtcgttgtcctggatgtcaatcagttacaaaacttctaaaggagctcaatgctcctttta ctttctataaagttcttacaaataatggtaagattgagtatgatcgtccactgattgtatctcttgctaaacgcgctggattcacatctcttaacattcgttatccagtcattttcattaatgattctagac aaaagaacattaaacacttcaaagaaactctcatttcacttggatatgatagagatatcatagaagattaa (SEQ ID NO: 428) 18 atgaaacagttgataattaaaagattgaatttattgatatgttgtttatgtatagtaattgcatatggttattacgcaattaatgattatatgcattataaagattatgatgttactgtagttaataccctta caggaactcaaggaaaggggtctagtttatcgtttattgccgtatatgaactcaaagacggttatagatttagcgaatatatttcgccagagatgtattcatcaatagaaaaaggcgataattact gtaagtttacgtcctttcgacgtaaaacagacattgtttgataatattgtttggttctttggaatggtattagttcaatctatatgtggtacttatatagtctgttcaatcttattccgcgtaattagtaaaa ttgagtgaggaaaatatgtcagtagtaattaataatgtcaatgcagtaattaaatctttagttaataaaaaaatgatgaatgaatggactgtacttcgtcgtggagagccagataaattttttcatag atttaacccaactttggatttgaatgttattgacagagatgttcatgctgaaattttagataaatttaaagttgatattggatttggattagaaaaacatttacagcgaacaaacgggtctggaatga gtttatctaatcgcatcatgaaagcccttaataaaattggagcattgtctcgtattaacgcgagtgaaatccttcgtaattataataaaggatatgacctttatggccgactaatgccgaaattatca ttcgatcaaatgattgcggatttgtgggaaaatcaacgacgattattagcattaggcgctcgattagctaaaggtctagataaacaaatgatttttaaaactaataatacagaagaccttaaatgc tttaaatttagtactcgtggagatgattattacgtcagagctcgctctacagattatgtcaatatggggcatcatctctgtttagcttttgaagttttaaaagaagctTgaacgttagaatattcatct ggtgctaaatgcccgattggttcaaattgcattttaatttatcgcccgaatgaatccagttcaactaaattgcctacaaaacctgtaccagttcgtagtaacgaaaaacattctgaacaaattgatt attttaataaacagattgaagagctgaatatttctattcaacaatatgacgatgaaatctttagactatctggattgagtagtaaagctaaatctgaacgtgaaaaattaattaaaattgttgatttact taaatcttaaggaacaccatgaaaactcgttctcaaattgaagatatggttcgtaatgccagctatactcgtgatgctatgacatttttgtgtgaaaataatttagaccttaataaagttaattgttcc attcacgcctttaaacatctgaacagcagtgaatgggtgcgtaattttaatgaagcagggtatattacacaaatgactgctcgtgagcagctcgttgatttctgtaaaactattgattataaaaatc ctctatttgttcaaggcgttggtcagagtaaggttgatttatcaacaggattttttaatccaaatcattatcgtcttgaatggagatttattgctctattccgtaaacaattaaagcaaattttgtcgact gctagtcgattaaaaggttctgatattaacttaaagaatctgaaatttgatggttatactcttcagatggaagtaagaccattaaaagaaaataatagaactgcacgaattagctttaaacctaata caaaaaattctctttcaatttgtgaatgccttaaatcacagttgatagaagcatttaagtatatggatgttgttgctagtgttcagtctaagatttcacagcatttcgaacgatttaaattaggcacaac aacgtatgaacttgatatggtcgttttatttaaatacgattttttgagaaaggacgaagttgtacaagagaaaaagcaggaagtgcaagataacttaaatttatctaattacttatcaaacgatccta aattttggatgtatagttcaggtaataaagatgcatggaaattcaataaagtgaattttcttcctattgaaaatccgagtcttaaacctgttgaaaaatggcacgcggatgcgattgagaagtctat caaggcagtagatgatgaactcgttaaagcaactaatgaagtgttagaagctgaaaagatgctagaaaaagcacaagaaaaagtcaaaaatctcacgaagcaacgttctaaactgaacaat gcactaaatgcactgaactag (SEQ ID NO: 429) 19 atgaacgctaaagatattttcaacctggtaaattacaacgatggtaaatttaaatctgaagcacaaagcaagttctttaatgacatctcaatcggaggtgaaatcacagttgatggaggacaaat ttacaaatcccgttggaattggatcgttattatcgatgagattggtattgtagaaatttacaaaaatacgaataaaaatcgtacattacactggtctcgtgatactaacgaacagtacaaaaagga taaagcatctaagttatctcgtgtaactcaagaagatattgagttcatcaagaaagatattttgatgtatgataacttaattgctgaagagcaagctgttattgataaatttgacgagattaaagcttc tcgtgaaattcctgattttatgaaagaatcagtaaatgaacgatacactctcatttcagagcgtattgaaacttacaaaaagcaaagagctgaacgccaaaatactcttcggaagtttgaagaac ggttaaagacggtactcgcataa (SEQ ID NO: 430) 20 atgttatactcaaaggctcgtgaaatttacgaaactaagattaaagaagctgtatttcaattcgcaacaacgatgcgatggacaaatgattgggaatattcaaaaaatcataagaagcccctgg tgacaagaaaggctcatatgttagtgttaatagaccgtgagcagattaaagcccgagaagccctccagaatcataaaaaggctgcctttgaatggtttatggataacactgctcctgagacta agaaagcagtgagcgcgtggttcagtggaaaaaattgtgaaagaagtttcttttag (SEQ ID NO: 431) 21 atgaaagttttgtttgttgtgtatgtgatgattcaatataattacccaatgtttacttataatttggtgaataacattattgatatgattcagaggagtatgtaattatgagtgagtcgaagagaatcaat atgaaacgattagtattagaagatagtgtgctttttggtgaattagcgatcgaaaaagtaaataacatgtatcgtttgacgcaagaagatgatatgttatattacgcctagtgaaattgttcgtttaa cccaaattgaatatgcttacactgataaaattgtaagcattaatgatgagcataaaattcatttttattcttcatgcccaggatttaatattaaaagcgagtcaatgtgcttatcaattaataattggga taattttataactaacattaaatatttttatgattctactaaaagaaaacataatttaaaatggtttaaaaatgtaatgctattattactaactcctgtaatcagaatgatgaaactattttaaatgtttcaaa atgctatgaagagggagatgtagtatctattcgtcaaattgacgattttcgatcgcatatcattacattaaacaaagacgaagctattgcactaaagacttatcttgattctgttattccaactatgat ttcaaagtgaggaaatatgtttatttcaagtggaagtggtttaattcgtgttgaatttaaaaatgacatcttccttagtcaaggagatgatattattaaaatgagttatgacgaaatcaagaaaatttg tcatactcttgaaagccgtggaaaagtaaatgctgttttgacattggtgatttatgggtaacgctttatgaagtatccgaaggatttaacattgaagatgaaaataacattttagctattgataaaag aactgatttgcttgatgtattaaaagcctatgaacagtcaaacggtggaagaaaagctgtattgatttatcaaaaaccgcattcatgtggaactgcttcaatcatttcaaatattgaaggcgaagtt gatacttatatgtgttttaaaagctggtggtgaccgtcatccggattttatttctattcgtcaaaacaatggagaaatttcattatcaaaatcagaagctgaagctatgattaagtatttaacaaccgt tacgccttcaatgaaaggataattatgattattaatgaaaactcttggcactataaattattcaaactgtttaacgatgaatggcaacgacctaagacactatgcgcatatttttggtctattgcctcc tacatttttcgtttctatttttgggtgtgctatactcgtagggctaacaattatttgtgcagaaagcctacaacgttggcttattttcggtagtttatggactcttcttccatcggcatttatacttgcgcttt tggttgttttacttattatcggttcatttgttattcctgcacatttgcgtgaaaaatataaagattataaatggaaaaaggattatgctttacacgtagaaaatattgatagggcgtataaaggtttacct cctattcaacctaagaaatcgattatcgttgaatttttaaaagttcgtaaagctaaagtatgtcctgttattgaatataaggctgaatgatgaaaacagtaatgaaaagctattttggtagtcatcttta tggaacttctaccccagaatctgatgtagattttaaagaaatttttgttcctcctgctcgcgatattcttatcggaaatgtcaaagagcacatgagcaaaaacactaacaacacatcatctaaaaa cactaaagatgatattgaccatgaactatacagtcttaaatatttctttaaattagcagcagatggtgaaactgtagcgttagatatgcttcacactcaacctgaactagtggttaaatctgatttgc ctgatgtgtggaagtttattcaagacaaccgttctcgtttttatacgactaacatgaaatcatatttaggatatgtccgtaagcaagcttctaaatacggtgtcaagggttctcgtttggctgcattac gtgatgtattgaaagtagttaatcaaatccccgagcaatgggttgattaccaagaagatggttctattaagcagcgtcgtactaaagttgaagatattaagcatcgtcttccagaaaacgaattct gtgaatgggtgttccataatcatgagaaaacaggcccacaaacgttctacactgtattgggtcgtaaatatcagacaacgctttctcttattgagcttaagcagtcactgaacaaattagatgct gaatatggtgaacgtgcccgtaaggccgaagccaacgaaggcattgactggaaagctctgagccatgcttgtcgtggtggacttcaactattggaaatttacaaaactggtgacttggtttat ccacttcaagacgctccatttattctcgacgtgaagttgggtaaacatccatttaaaacggttcaagagtttttggaagatgtggtcgatcaagtagaagcagcatctactgaagcttctaagaa cggtatgcagcaaaaagtagacatgggtttctgggatgacttccttgagaaggtttatcttgaaaaccaccgaagttattataaatga (SEQ ID NO: 432) 22 atgctacaattaactgaaaagcaacttcgcaatcttactgtgcttcaattagatgaaattcgtagggaagttggaaatatcatttcagctttgcgtcgagaagtatcacttaaccaatctccggca gactatactagattgcgaaattttgaaaaataccttgataaagttaaggccgtgcatcggcataaagtaaatacaggacaaaaatgataggaggcctttatggccttaaaagcaacggtactat ttgccatgctaggattgtcatttgttttatctccatcaattgaagcgaatgtcgatcctcattttgataaatttatggaatctggtattaggcacgtttatacactttttgaaaataaaagcgtagaatcg tctgaacaattctatagttttatgagaacgacctataaaaatgacccgtgctcttctgattttgaatgtatagagcgaggcgcggagatggcacaatcatacgctagaattatgaaaattaaattg gagactgaatgaaattcagcgacttttcacaaagtggaaaaccttcaaaggcagatgaatacttaggtttattaatggctgcacaagcttattttcattctgcacattttgaaactaaaagttatgct agacacaaagcatacgattttattttttccgagttgccagatttgattgataaattttgtgagcaatatttggggtattctggtagaaaatacacaccttcaattccagatgccagtaaacttcctacc gacacaattaaaatgattgatcgcatactagaccaatctaacagcatttataaagaaatgcctccagccatccaaagcacgatagatgatattactggaatgttttaccagagtaagtatcttcttt ccctcgaataa (SEQ ID NO: 433) 23 atgaaaacctatcaagaatttattactgaagcagctattaattctcaaattattgctgaatcttttactgatcttttgaaatttaaaaaaggtcagaaaatcactgctgtattggatgatggtacagaa gttgagatggatgtacagggatataattatgcagtagatggaaaactgtataataaatctcatgctaaatttgattcatttgacgactttgttaatacagttgaagatgaaaaaactcgtcgatccat tgcaactggtgatgctaaggttcttatggcacatggtcatgaacgcattcgcgctaaacagaataaaatgggtgaagataatttcgcattagttggttatcaatctggtaaacaaacttatggcta tcaacgtactgctaccatgtataacaaaaatggtaaaattgcctttgtgaatagtaaaggttctattcagtacgttaaatcgttcaaataacatgggaacaacctggacctcatgattctgtgagg gattcccgccaacctgtaataatgtcgagcccaagcgcggtaatgggtaaatacagaaatggacaattcatgcgccatggaatggcccaaatttagagagaagaaatgagaacatttttaac tggtccttatctatccctgatgaatgcttttacacaccattctgatgctagagtagaagaaatttgtaaaaacgaatatcccgccatttgaagacttacttaaacagtattgcacacttcgactagat ggtggacgtcaatctggtaaatcaattgctgtgactaactttgctgctaattggttgtatgatggcggaacagttattgttctttctaatacttcagcttacgctaaaatttctgcaaataacatcaaa aaggaattttcgcgttattctaatgatgatatacgttttcgtttatttactgattctgtgcgcagttattggtaataaaggaagcaagttcagaggtttatcgctttcgcgaattttgtatataattgatga gcctgtcaaatctcctgatatggataagatttatagtgtccatattgacactgtacactgctgctgtaatattaaatgttgtattggtggtattactcgtccacagtttttcgtaatcggaatgcaatga tgacagacactcagcttttcgaatatctttatttttcgccaaaaactattaaaaataaattggtgaatcattttgaaattttggcaaaaaataacattttaagcgaattttatcctaagcaatacaaatta caaaaaggcgtattcaaaggatgcagagttttgtgtactgctcctaatgcacggctaatgaataaaattccatattttaccatggaatttattgatggaccttttaaaggattaattacccacagttt aatggcatatgattctgagccatttttaattaaagaacaatcttggataaatttattttctaattgaggtttatatgaaagcatatcaaattcttgaaggcacacataaaggtactatttattttgaagat ggtattcaagcacgaattattgtctctaaaacctttaaagaggactcttttgtagacccagaaattttctatggtttgcatgcccgtgaaattgaaattgagccacaacctacagttaaaattgaag gtggtcaacacctgaacgttaacgttctgcgtcgtgaaactctggaagatgcagttaagcatccggaaaaatatccgcagctgaccatccgtgtatccggttatgcagttcgctttaactctctg actccggaacagcagcgcgacgttatcgctcgtacctttaccgagagtttgtaatggcaaagataattattgaaggttctaaagatgtgataaatgctttcgccgagtggtttagtaattcaggc gaacagcaatttaatgaagcctggaatatgggtgatattgatggaatttatcctacgacagaagtttctgttcagggatatggcattcatgaacctattcgtttagttgaatatgatttatgtactggt gaggaagtcaaatatgattgaagatattaagggataaaccacatactgaagagaaaatcggtaaagtgaatgctatcaaagacgctgaagttcgtttaggacttatctttgatgctttatatgat gaattctgggaagcactagataattgtgaagactgtgaattcgcgaagaattatgctgaaagcctcgatcagttaactattgctaaaacgaaactcaaagaagccagtatgtgggcttgtcgtg cagtgttccaaccagaggaaaaatactaatggatcaattaagcgcagggtttggttatgagtattatactgcacctcgtcgtgtatctgttgctcctaagaaaattcaaagtcttgatgacttcca ggaagtagtccgtaacgctttccaggactatgcacggtatcttaaagaagattcgcaggactgtctcgaagaagatgaaattgcttactatacgcagcgtcttgaacagctcaaaaatctacat gaggttcgtgcagaagtttcaaagtctatgaataaattgattagatttaaagaataa (SEQ ID NO: 434) 24 atgaatatatttgaaatgttgcgtatagatgaaggtcttagacttaaaatctataaagacacagaaggctattacactattggcatcggtcatttgcttacaaaaagtccatcacttagtgttgctaa atctgaattagataaagctattggacgtaattgcaatggtgtaattaccaaagacgaggctgaaaaactctttaatcaggatgttgatgctgctgttcgcggaattctgagaaatgctaaattaaa accggtttatgattctcttgatgcggttcgtcgttgtgcattgattaatatggtcttccaaatgggagaaaccggtgtggcaggatttactaactctttacgtatgcttcaacaaaaacgctgggat gaagcagcagttaacttagctaaaagtagatggtataatcaaacacctaatcgcgcaaaacgagtcattgcaacgtttagaactggcacttgtgacgcgtataaaaatctataa (SEQ ID NO: 435) 25 atgaacacactgaagaaaattgttgagtttattcgcactaaacttggttctgctatggctaaaaatctatctgttgaagaacagtatactgccgcagcagcaaaactgcttgataaaattaaagac ctaaaaactgcttctgttaaatctattaatgaagaaaaacgtattcgtgaacttattgttgaaaagaataaacaggctgaatcaaaagagcgtgaaattcgcaagcttctttccgaaggtcaagat gtaacaatgcatgctaaactcggtttgctatatcgtcgaacagctgaacagctgactactaaagctgatggttatgctgaaatgcgaattgaaatcgctaagaaagtagttgagttagatgatg ctcgccaagaacttgcagttaaattggaatatatccgtgaaactcgtgcagcaaatgcccttggaattagtactgctgatgatgtagttgaaattgcagcactgactaaggttgatattgaagat actcttgctcgagttgaaacctttaatggcaatatttctggggttgaaactacctctgccgatgttcaggaatatattaattctctgaaataa (SEQ ID NO: 436) 26 atgactactttaattatttggttcgacgaaaatgaagaaacatattgcgtgaacattggcgaaagcccaatgccagaatttgaatcttcagataaaaactcggttgtatcttgggctgaaggttat aaagcagcaaaaggcgatgttgaaatagtttacaaactatccggagtataa (SEQ ID NO: 437) 27 atggataattacggtgaactgttcaacttctttatgaaatgtgtttcagaagatttcggtcgtacagtgaatgatattaaagttatcggtcctgaccatccgatgtttgaaacttacgcagtaatggg taatgaagatggtcagtggtatactgtaaaggtcgtgattaacatgttcactgctgaaggttatgttaaactgtcttctaaagtttaccatgataacgacgaaatcgcagaagaatatttcaataat atgaaataa (SEQ ID NO: 438) 28 atgaaaggtaatgtttatttagtcgttcatgatttaacattctattttaatcataatgacactgttatttctgaacgtgtaattaatttgctttatcagcatgcagactatgtttatgtcgaaaacgaattta ggcattggcaatttctcaaaaatcgttcatttggtttagatggttacgaatactttgaacgtaaagaccttttagataaaattccattatctacacaataccaaaatcacaagtctttacataaatgcc ggctaattcgaaatgctgaatccgcgtatgaagcaattgatttatggcgtaaacgccgtgaacagattgatgctttaaaagaatattaa (SEQ ID NO: 439) 29 atgaatggctattggtggaaatcaacgggaaaatatgataagcgtggaagaaagggtcatgaatactgcatgtgccgtttcggtgataaaggaccatattcattaaataacatatattgcgcaa ctaataatcaaaatacaaaagatgcgagactaaatgatagatttcctccaaaatctaaaaattttaattttaatggtcgaaaacactcggcacagtccttagaaaaaatttctaaaaataatgcaa gtaccttaagcaaagatgagataactagacgattaaaaatattagaaaattttaatatggatgaacgaggttttattaaaaattatgcaaacgctataaatgttagccatactcaagctagaaagtt tttaaataaatattacataaaataa (SEQ ID NO: 440) 30 atgaaacgttgtgaattaattcgaaatgttgctattgcaatttctgcttccgcttttagtttttcaatgtttgttggatttatatgcggattattgactacagcagaaaatgtgttttcacttgtagtagcatt tttaattggtttaatcgctatcgttatggataaaatttctaaaggttaataatgattctttatgcgaaagtatcgtccgttgaaaatggatataaatatgatcaagatgcggctaaagccttgattgatg attatggcattttaacatgttttgaagttgaaaaggtttacattgaccgttcatcttctcaagttaaattagtgaaggaagaccgtaaatttaatacagtaaattttgatttctttattgaaacagaaaaa ggtcctcttgaatatgatattttcaagaatcctttgggtcttgaatgtattaaatatacttacattaatatggtgaacaaatgtatattcgtttaggcagcacaattcctaagggttacgtaattgatgtc actacctgggaaaatgatggtgataactataaaaccaaaacactgtttggcgtagaagagcatgagctccaacaatttaaatatcttttgaagaagtttaagagtcgtcattctagcactaaagc tgaccgttattgtggtaatgggttgttcagcgagcaagagctttttatatatgaatatttggttgaaggactgttctcagaccaactttatccagaattcattaaaaaggtctttgatatagaagttga ccttggtaataaatccgaagaagatgaagaacgtgtatttgacttattctttgtgaatggtaataagatatttgaaggcctcattgatattcttggtcatgcttctgaatactatgaatatgatttcttgc gtgtagttgaacatgtagaatttgcttatatcgaagaagaaattgttttgccgactgttaaaatggttgatttgctttaa (SEQ ID NO: 441) 31 atgaaaacatttaaagaatttatcaatgaagcggctgcgccaaagacattcgttattaatactcagacgagtcttgacgatgagtatgcagaggcaattctgaagtcacttgctaagaacggcg ttgaagtaatcgcctcggactttaagaaaggggcttccgagatgtttatttctataactaaaggatctaaagctaagatcaaatcatcattcggagttgctcgtaccgatcaaatcgacaatcatg actttaaacaaactggtgctaaacggcagaatacaattgcatcacgcggaataaaatag (SEQ ID NO: 442) 32 atgaaaactttcaaagagtttgctacaaaaactactattactgaatcttcccatggtatggaagtaaaacttggaatggctttagctgaagctgagcgtcttttctctcgtattaaagaacttgctgc tgttgatccttcatcttttaaaggagaccaaactaaagttaaagcgcttttagcattatgctctgatgcaggcgaaatcgctaagaacggttctaagatgaagaaacgattagaagatttaaaata a (SEQ ID NO: 443) 33 atgaaactaatctttttaagtggtgtaaagcgtagtggaaaagatactactgctgattttatcatgagcaattattctgcagttaaataccaacttgctggtcctattaaggatgcattggcttatgca tggggagtatttgcagcaaacactgactatccttgcttaactcgtaaagagtttgaaggaattgactatgatcgtgagactaatttaaatctgactaaattagaagtaatcacgattatggaacaa gcattttgctatcttaatggtaaaagcccaattaaaggtgtgtttgtttttgatgacgaaggaaaagaatcagttaatttcgtagcatttaacaagattactgacgttataaataatattgaagatcaa tggtcagtccgtcgtctgatgcaagccctaggtacggatttgattgttaataacttcgaccgcatgtactgggtaaaattatttgctttagattatcttgataaatttaactcaggttatgattattatat cgttcctgatacccgtcaagatcatgaaatggatgcggctagggcgatgggtgctacagtaattcatgtagttcgtcctggtcaaaaatccaatgatacacatattacagaagctggattgcca attcgtgatggcgatttagtaattacaaacgatggttctattgaagaacttttttctaaaattaaaaatacactaaaggtactataatgtctgaacaaactattgaacaaaaactgtctgctgaaatc gtaactctgaaatctcgcattcttgatacacaggaccaagcggctcgtctgatggaagaatccaaaattctgcaaggaactttggctgaaattgctcgtgcagtaggtatcactggcgatacc atcaaagttgaagaaatcgttgaagctgtcaagaatcttactgctgaatctgcagatgaagcaaaagatgaagaataatggaatttaaagacttttcaacgggtctttatgtagcagctaagtttt cagaattaacacttgatgcgctggaagaactccagcgctctttacgtgttcctaatccagttcctagagaaaaaattcattcgactatatgttattcaagagtaaatgttccatatgttccatcgagt ggaagttttgaagtagcttcttctggacatttagaagtatggaaaacacaagatggatcgactcttgtacttgtgctagattctgaatatctgcgctgtcgacacatgtatgcgcgggcattaggt gctacacatgattttgatgattacacaccgcatataacattgtcttataatgttgggcccctatcatttagcggtgatgtacaaattccggtcgtattagatcgtgaatacaaagagcctcttaaact cgattgggcagatgatttaaaataa (SEQ ID NO: 444) 34 atggcatattctggaaaatgggttcctaaaaatatatcaaagtatagaggtgaccctaaaaaaattacgtatagatcaaattgggaaaaattcttttttgaatggttagataaaaatccagaaatta ttgcatggggtagtgaaacagcagtaattccttatttttgtaatgcagaagggaaaaaacgtagatacttcatggatatttggatgaaagattcttctgggcaagaattttttattgaaataaaacct aaaaaagaaacacaaccaccggttaaaccagcacatctaacaaccgcagcgaagaaaagatttatgaatgaaatttatacatattctgttaataccgacaaatggaaagcagcacaatcttta gctgaaaagcgtggaataaaatttagaattctaacagaagatggattacgagctcttggctttaagggggcataatggctatttttcaaataattaatgaaagcactccccaagttccaaaggtt aagcaatcattaaacgaaaagaaatggattcagataggtcttgaatacaaaaaggccaaagcaaaaggaatgacaggaaagcaatttgctgaagaaagaggaatcaaatactctacgttta cttcagcaatgtcaaaatatgcttcaggaattaaaacggctgaaaagattcaaaaacttgaatcaaaaccaatgaataaactcaataagcaagaaagacaactgcttatgataaattcattcag acaaacattgcgtgataaaattcgtaatgaaggtgcagcaattaataataaaaccagaaagtggtttgccgaaactattaagcaagtaaaaggacataaagttgttcgcccgcagccgggac gaatatatgcttttgcttatgatgctaaacacaaggaaactcttccttattgggataaatttcctttgataatttaccttggtttaggtaagcataatttaatgtacggattgaacttgcactatattccac ctaaagctcgtcagcaatttctagaagagcttttaaagcaatatgcaaatacacctactattactaataaaacgaaattaaaaattgattggagtcaagtgaaaggatttagaggtgcagatcaa atgattaaggcgtatatacctggtaatattatgggtagccttgttgaaatcgccccgaaagactgggcgaacgttgtgttgatgccacttcagcagttcgtttcaaaaggaaaacgtttctctgc aaacaaagtctggtcaaatatctaa (SEQ ID NO: 445) 35 atgttcattcaagaaccaaagaaattgattgataccggcgaaattggtaacgcttctactggtgatatcttattcgacggtggtaataaaattaatagtgattttaacgcaatttataatgcgtttgg cgatcagcgtaaaatggcagtagcaaatggcactggagcagatggtcaaattatccatgctactggatattatcaaaaacactctattacagagtacgcaactccagtaaaagttggcactag gcatgatattgatacctctactgtaggtgttaaagttatcattgaaagaggcgaacttggcgactgcgttgaatttattaactctaatggatcaatatcagttactaatcctctaacaattcaagctat tgattcaattaaaggtgtttcaggtaatttagtagtaactagcccatatagtaaagttactttacgctgtatttcatctgataattctacatcggtttggaattattctattgaaagtatgtttggacaaaa ggaatcaccagctgaaggtacatggaatgtttctacatccggatcagttgatattccactatttcaacgcactgaatacaatatggctaaattgctagttacgtgccaatcagtagatggaagaa aaattaaaacagcagaaataaatattcttgtggatactgttaattcagaggtaatttcttctgaatatgctgtcatgcgagttgggaatgaaaccgaagaagatgaaatcgctaatattgcatttag tattaaagaaaactatgtaacggcgactataagttcttcaactgtcggtatgagagcagcagttaaagttatcgctacgcagaaaatcggggtggctcaataatgaaacaaaatattaatatcg gtaatgttgtagatgatggtaccggtgactacctgcgtaaaggtggtataaaaataaatgaaaactttgatgagctttattatgaactcggtgatggtgatgttccatattcagccggtgcctgga aaacttataatgcttcatcaggacaaacattaacagcagaatggggaaaatcatacgctattaatacatcttctggaagagtgactataaatcttccaaagggtacagttaatgattacaacaag gtaattagagctagagacgtatttgctacatggaacgtcaacccagttacactagtagctgcttccggcgatacgattaaagggtctgcagtaccagttgaaattaatgttcaattcagcgattt agaactagtgtattgtgccccaggacgttgggaatatgtcaaaaataaacaaattgacaaaattaccagttcagacattagtaatgtagctcgtaaagaatttttagtcgaagtccaagggcaa acagactttttagatgttttcagtggaactagttataatgtaaataacatcagagtaaaacatcgtggtaacgaattatattatggcgatgtgtttagcgaaaacagcgattttggctctccaggcg aaaatgaaggagaactggttcctcttgatggatttaatattcgattaagacagccttgtaatattggtgacactgttcaaattgaaacatttatggatggtgtatcgcagtggagaagttcatatac aagacgtcaaattagattgttagattcaaaattaacgtcaaaaacttctctagaaggaagtatttacgttactgatttatcaacaatgaaatcaattccattttctgcttttggattaattccaggagaa cctattaatcctaattctcttgaagttagttttaatggaattttacaagaattggctggaacagttggaatgccattatttcattgtgttggtgccgattcagacgatgaagtagaatgctctgttttag gtggaacttgggaacaatctcataccgattattcagttgaaactgatgaaaacggcataccagaaattttacatttcgatagagtatttgagcatggtgacattatcaatatcacctggtttaataa tgatttgggtacattattaacaaaagatgagattattgatgaaactgataatctctatgtatcgcaaggaccgggagtagatatttccggtgatgtaaatttaacagactttgataaaattggttggc caaatgtagaagcagttcaatcttatcaacgcgaatttactgctgtttcaaatatctttgatacgatttatcctattggaactatatatgaaaacgctgttaatccaaataaccctgttacatatatggg attcggctcatggaaattatttgggcaaggaaaagttttagttggatggaatgaagatatttcggaccctaactttgctctaaataacaacgatttagattctggtggaaatccttcgcatactgca ggcggaacaggtggttctacttctgttacattggaaaatgctaatcttcctgcaaccgagacagatgaagaagttctaatagttgatgaaaatggatcagtcattgttggtggatgtcaatacga tccagatgaatccggtccaatttatactaaataccgtgaagctaaagcatctactaactctactcacactccgccaacatcaataactaacattcaaccatatattacagtttatcgttggataagg attgcataatgagtttacttaataacaaagcgggagttatttcccgcttagccgattttcttggttttagacctaaaactggcgacattgatgtaatgaatcgtcaatcagtcgggtcagtgacaat atctcaattagcgaaaggattttatgaaccaaacatagaatcagctattaatgacgttcataatttttctataaaagacgttggtacaattattactaataaaactggtgtttctcctgagggtgtttct caaactgattattgggcattttctggaactgtaacagacgattctcttcctccgggttctcctgttacggtattagtatttggtcttccagtttcagcaacaactggaatgacggcaattgagtttgtt gcaaaagttcgtgttgcccttcaagaagctattgcatcatttactgctatcaactcatataaagaccatccaacagatggtagtaaattagaagttacttatttagataatcaaaaacatgtattaag cacatattctacatatggaataactatttcgcaggaaattatttctgagtctaaacctggctatggtacatggaatttattaggcgcacaaactgtaactttagataatcagcagactcctacagtat tttatcattttgagagaacagcatgagtaataatacatatcaacacgtttctaatgaatctcgttatgtaaaatttgatcctaccgatacgaattttccaccagagattactgatgttcaggctgctat agcagccatttctcctgctggcgtaaatggagttcctgatgcatcgtcaacaacaaagggaattttatttcttgccactgaacaggaagttatcgatggaactaataataccaaagcagttacac cagcaacgttggcaacaagattatcatatccaaacgcaactgaagctgtttacggattaacaagatattcaaccgatgatgaagccattgccggagttaataatgaatcttctataactccagct aaatttactgttgctcttaataatgtctttgaaactcgtgtttcaactgaatcatcaaatggggttattaaaatttcatctttaccgcaagcattggcaggtgcagatgatactactgcaatgactccat taaaaacacaacaattagctgttaaattgattgcgcaaattgctccttctaaaaatgctgctacagaatctgagcaaggtgtaattcagttagctacagtagcacaggctcgtcagggaacttta agagaaggatacgcaatttctccttatacgtttatgaattctactgctactgaagaatataaaggcgtaattaaattaggaacgcaatcagaagttaactcgaataatgcttctgttgcggttactg gagcaactcttaatggtcgtggttctacgacgtcaatgagaggcgtagttaaattaactacaaccgccggttcacagagtggaggcgatgcttcatcagccttagcttggaatgctgacgttat ccaccaaagaggcggtcaaactattaatggaacacttcgcattaataatacgcttacaatagcttcaggtggggcaaatattaccggaacagttaacatgactggcggttatattcaaggtaa acgcgtcgtaacacaaaatgaaattgatagaactattcctgtcggagctattatgatgtgggccgctgatagtcttcctagtgatgcttggcgtttttgccacggtggaactgtttcagcgtcaga ttgtccattatatgcttctagaattggaacaagatatggcggaagctcatcaaatcctggattgcctgacatgcgcggtctttttgttcgtggctctggccgtggctctcatttaacaaatccaaat gttaatggtaatgaccaatttggtaaacctagattaggtgtaggttgtactggtggatatgttggtgaagtacagaaacaacagatgtcttatcataaacatgctggtggatttggtgagtatgat gattctggggcattcggtaatactcgtagatcaaattttgttggtacacgtaaaggacttgactgggataaccgttcatacttcactaatgacgggtatgaaattgacccagcatcacaacgaaa ttccagatatacattaaatcgtcctgaattaattggaaatgaaacacgtccatggaacatttctttaaactacataattaaggtaaaagaatgacagatattgtactgaatgacttaccattcgttga cggccctcctgcagagggccagagccgcatttcctggattaaaaacggcgaagaaatattaggagctgacacgcagtatggaagcgaaggttcaatgaatagacctacagtttctgtacta agaaatgtcgaagttctcgataaaaacattggaatacttaaaacatctttagaaaccgcaaatagtgatattaaaacaattcagggcatcttagatgtatctggtgatattgaagctttggcccaa ataggtatcaataaaaaggatatttctgacctcaaaacgctaaccagtgaacatacagaaatattaaatggacctaatagtacagttgacaacattcttgctgatattggtccatttaactctgag gccaactctgtatacagaacaatcagaaatgatttactgtggataaagcgtgaacttggacaatacgcaggtcaagatattaatggtcttcctgttgtaggaaatcctagtagtggaatgaagc atcgcattattaataatactgatgccattacttcacagggaatacgtttaagcgaattagaaacaaaatttattgaatctgatgtaggttctttgactattgaagttggtaatcttcgtgaagagcttg gaccgaaaccaccatcattttcacaaaacgtttatagtcgtttaaatgaaattgacactaaacagacaacatttgaatctgacattagtgctattaagacctcaataggatatccaggaaataatt cgattattactagtgttaatacaaacactgataatattgcatctattaatttagagctaaatcaaagtggaggtattaaacagcgtttaaccgttattgaaacttctattggttcagatgatattccttc gagtattaaaggccaaatcaaagataatacaactttaatcgaatctctaaatggaatcgtcggtgaaaacacttcatctggtttaagagcgaatgtttcatggttaaacaaaattgttggaactga ttctagcggtggacaaccttctccttctgggtctcttttaaaccgagtttctacaattgaaacttctgtttcaggattgaataacgatgttcaaaacctacaagtagagattggtaataatagcgcag gaattaaagggcaagttgtagcgttaaatactttagtaaatggaactaatccaaacggttcaacagtcgaagaacgcggattaaccaattcaataaaagctaacgaaaccaacattgcatcag ttacacaagaagtgaatacagctaaaggtaatatatcttctttacaaagcggtgttcaagctctccaagaagccggttatattcctgaagcgccaagagatgggcaagcttacgttcgtaaaga cggcgaatgggtattgctttctacctttttatcaccagcataacatggggccgcaaggccccaaaggattttaaatgtcaggatataattctcagaatccaaaggaactcaaagatgtcattcta agacgtttaggggctccaattattaatgttgagttaacacccgatcaaatttacgattgtatccagcgtgccctagaattatacggtgaataccattttgatggactcaataaagggtttcatgtgtt ttacgtaggggatgacgaagaaaagtacaagaccggagtcttcgatttaagaggttctaacgtatttgcagtaactcgcattttacgcacaaatattgggtcaataacatctatggatggaaac gctacatatccgtggtttactgactttcttttgggaatggctggtattaatggcggaatgggaacgtcttgtaatagattttatggaccaaatgcctttggtgccgatttggggtattttactcaactt accagttatatgggaatgatgcaggatatgctctctcctattccagacttttggtttaattcagcaaatgaacagctcaaagtcatgggaaacttccaaaaatatgatttaattatcgtagaaagct ggactaaatcatacattgatacaaacaaaatggttggaaatacagtaggatatggaacagtcgttccacaagataactggtcattatctgaacgatataataaCccagacaacaatttagtag gtcgtgttgttggtcaagacccaaatgttaagcaaggtgcttacaataatcgttgggtgaaagactatgcaacagctttagctaaagaattaaatggtcaaattttagcacgccaccagggaat gatgcttcctggcggtgttacaattgatggacaacgcttaatagaagaagctcgattagaaaaagaagcactgcgcgaagaattatacttacttgaccctccatttggaattttggtaggttaat atggctacttacgataaaaatctttttgctaaattggaaaaccgcacaggttattctcagaccaatgaaactgaaatactaaatccttatgtaaatttcaatcattataaaaacagccaaatattagc tgatgtattagtagctgaaagcattcaaatgcgaggtgtagaatgctattatgttccaagagagtatgtttcccctgatttgatattcggcgaagacttgaaaaataaatttactaaagcttggaaa tttgctgcatatttaaattcatttgaaggatatgaaggagctaaatcgttctttagtaattttggtatgcaagtacaggatgaagttactttgtccattaatccaaacttgtttaaacaccaagtaaatg gaaaagaaccgaaagaaggcgatttgatatattttcctatggataacagcttatttgaaattaactgggttgaaccatatgatccattttatcaattaggccaaaacgctattcgtaaaattacggc aggtaaattcatttattctggagaagaaattaatccagttctacagaaaaatgaaggaattaacattccagaatttagtgaattagaattaaatcctgttcgcaatcttaacggtattcatgacatta atattgatcagtatgctgaagtagatcaaattaattctgaagctaaagaatatgttgaaccctatgttgttgtcaataacagaggcaaatctttcgaatctagcccatttgataatgatttcatggatt aa (SEQ ID NO: 446) 36 atgtttggttatttttataattcgtcttttagacgatatgctaccttgatgggcgatttgttttcaaatatccaaatcaaacgtcagttagaatctggtgataagtttatacgtgttcctattacatatgcat caaaggaacactttatgatgaaattgaataaatggacatcaataaattcacaagaagatgtagctaaagttgaaaccattctacctcgtataaatttacatttagttgattttagctataatgctccat ttaaaacaaacattttaaatcagaatttactgcaaaaaggtgcaacttctgtagtatcgcagtataatccatctcctattaaaatgatttatgaattgagtatctttactcgctacgaagatgatatgtt tcaaatagttgaacagattcttccatattttcaacctcattttaatacaactatgtacgagcagtttggaaatgatattccatttaaaagggatatcaaaattgtactgatgtctgctgctatagacga agctatagatggggataatttatctcgtcgtagaattgaatggtcattaacatttgaagtaaatggatggatgtatcctccagtagatgatgcagaaggattaattcgtactacttatacagattttc acgccaatacaagagatttgcctgatggcgaaggtgtttttgaatctgtcgatagcgaagttgttcctcgagatattaacccagaagactgggatggaacagtaaaacaaactttcactagtaa tgtaaatagaccaacaccgccagaacctcctggcccaagaacatagaggttattatggaaggtcttgatataaacaaacttttagatatttctgacctccccggaattgacggggaggaaatc aaagtatatgaacctctgcaattagtagaagttaaaagcaatccacaaaaccgtactcctgacttagaagatgattatggagtagttcgtcgaaatatgcattttcaacaacaaatgctaatgga cgcggccaagatttttcttgagacggcaaagaatgctgattctcctcgtcacatggaagtatttgcaactcttatggggcaaatgactacgacgaacagagaaatactgaagcttcataaagat atgaaagatattacatctgagcaggttggcaccaaaggcgctgttcctacaggtcaaatgaatattcagaatgcgacagtattcatgggttcaccaacagaattaatggacgaaattggtgat gcttacgaggctcaagaagctcgtgagaaggtgataaatggaacaaccaattaatgcattaaatgatttccatccgttaaatgaagctggaaaaattttaataaaacacccaagcttagcgga aagaaaagatgaagatggaattcattggataaaatctcagtgggatggaaaatggtatcctgaaaaattcagtgattaccttcgtctacacaaaatagtaaaaattccaaacaactctgataag cctgaattatttcaaacttataaagataagaataataaaagatctcggtatatgggtcttcctaacttgaaacgagctaatattaaaacacaatggactcgtgaaatggttgaggaatggaaaaa atgccgagacgatattgtttattttgcagaaacatactgtgctattactcatattgactatggtgtcataaaggttcaattacgtgactatcagcgtgatatgctcaaaataatgtcatctaaacgtat gactgtttgtaatctatcgcgtcagctcggtaaaacaacggtagtagctattttccttgcacactttgtatgttttaacaaggataaagctgtaggtattcttgcgcacaaaggctcaatgtctgcg gaagttttagaccgtactaagcaagcaattgaactgcttcctgactttttacagccaggtatagttgaatggaataagggttcaattgaactagataatggttcttcaattggcgcttatgcttcctc tcctgacgcagttcgtggtaactcgttcgcaatgatttacattgacgaatgtgcgtttattccaaacttccatgattcctggcttgctattcaaccagtaatttcatctggtcgtcgttcgaaaattatt attactacgactcctaatggattaaatcatttttatgatatttggactgctgctgttgaaggtaaatctggatttgaaccatatactgctatttggaattcagttaaagaacgtctttataacgatgaag atatttttgacgatggatggcaatggagcatacaaaccattaatggttctactttagctcaatttcgtcaagaacacaccgcagcgtttgaagggacttctggtacattaatttcgggaatgaaatt agctattatggatttcattgaagtaactccagatgatcatggttttcatcgatttaaaagccctgaaccagatagaaaatatattgcaactctagactgctcagaaggtcgtgggcaagattacca cgctttgcatattattgatgttaccgatgatgtgtgggaacaggttggtgttttgcactcaaacactatttctcatttaattctacctgacatcgttatgcgttatttagtagaatacaatgaatgccca gtttatattgaattaaatagtactggtgtgtcagttgcaaaatcgctttatatggatttagaatacgaaggtgttatctgtgattcatatactgatttaggaatgaaacaaactaaacgcacgaaagc agtaggatgttccacgctaaaagaccttattgaaaaagataagcttattattcatcaccgagcgactattcaagaatttagaacgtttagtgaaaaaggcgtgtcttgggcggctgaagaaggt tatcacgacgatttagtaatgtctttagtaatttttggatggttatcaacacaatcaaaatttattgattatgcggataaagatgacacgcgattagcatctgaagtattttcaaaagagcttcaagat atgagcgacgactacgcgccagttatatttgtggattcggttcattctgctgagtatgttccagtatctcatggtatgtcaatggtataaatatattaaagcatattaaagaggattaaaaatgacttt attatctccgggcattgagctcaaagaaactacggttcaaagcaccgtggttaataactctactggtacagcagctttggccggtaaattccagtggggtcctgcttttcagattaaacaggtta caaatgaagtagatttagttaatacttttggtcaaccaaccgctgaaactgctgactattttatgtctgcgatgaatttcttgcagtacggaaatgacttacgagtagttcgtgctgttgatagagat accgctaaaaactcatcaccaatcgctggtaatattgaatacacaatttctaccccaggtagtaactatgcggttggagataaaatcacagtcaaatatgtttcagatgatattgaaactgaagg taaaattactgaagtagacgcagatggaaaaattaagaaaattaatattcctactgcaaaaattatcgctaaagcgaaagaagtcggtgaatatccaacactaggttctaactggactgcgga aatttcttcatcttcctctggtttagctgcagtaataactcttggaaaaattattactgattctggtattttattagctgaaattgaaaatgctgaagctgctatgacagcggttgactttcaagcaaatc ttaaaaaatatggaattccaggagtagtagcgctttatccaggcgaattaggcgataaaattgaaattgaaatcgtatctaaagctgactatgcaaaaggagcttctgcattactcccaatttatc caggtggtggtactcgtgcatctactgccaaagcagtgtttggatatggaccgcaaactgattcacaatacgctattatagttcgtcgcaatgatgctattgttcaaagcgttgttctttcaactaa gcgtggtgaaaaagatatttacgatagtaacatctatatcgatgactttttcgcaaaaggcggctcagaatatatttttgcaactgcacaaaactggccagaaggcttctctggaattttaactct gtctggtggattatcatcaaatgctgaagtaacagcaggagatttgatggaagcttgggacttctttgctgaccgtgaatccgttgatgttcaactgtttattgcgggttcttgtgccggtgaatct ttagaaacagcatctactgtccaaaaacacgtcgtttcaattggggatgctcgccaagattgcttagtattgtgctctcctccgcgtgaaactgtagttggaattcctgtaactcgtgcagtagat aatttagttaactggagaactgcggcaggttcatacactgataataactttaatatcagttcaacctacgcagcaattgatggtaactataagtatcagtatgacaaatataatgatgtgaatcgtt gggttccattagcagctgatattgctggtttatgcgcaagaactgataacgtatctcagacttggatgtctccagctggttataatcgtggccagattcttaacgttattaaacttgctattgaaact cgccaggctcagcgcgaccgtttataccaagaagctatcaacccagtaactggtacaggtggcgatggttacgtattgtatggtgataaaacagctacttctgttccttctccatttgatcgtatt aacgttcgtcgtctgtttaatatgttgaaaacgaatatcggacgtagttcaaaatatcgtttgttcgaattaaacaacgcgtttactcgttcatcattccgcacagaaactgcccagtacttgcagg gaattaaagctctcggtggaatttatgaatatcgtgtagtttgcgatacaacaaataacactccgtcagtaattgatagaaatgagtttgttgcaacattctacatccaacctgcgcgcagtataa attatattactttgaatttcgtcgcaacggctactggtgcagatttcgatgagttaactggtcttgcaggttaa (SEQ ID NO: 447) 37 atgtttgtagatgatgtaacacgcgcgtttgaatcaggtgattttgcgcgacctaacttattccaagtagaaatttcttatcttggacaaaattttacgtttcaatgtaaagccactgctttaccagct ggtattgtagaaaaaattccagtcggatttatgaaccgtaaaattaacgtagcaggcgatcgtacattcgatgactggactgttacagtaatgaacgatgaagctcatgatgctcgccagaagt tcgttgattggcaaagcattgctgcggggcaaggaaacgaaattactggtggaaaacctgcagagtataaaaagagcgctatcgttcgtcaatatgctcgtgacgctaaaacagtaacaaa agaaattgaaattaaaggtctgtggcctactaacgtgggtgaacttcaattagattgggattcaaacaatgaaatccaaacatttgaagtaactcttgctctcgattattgggaataa (SEQ ID NO: 448) 38 atggctaaaatcaacgaacttctgcgcgaatcaaccacaacgaatagcaactcaatcggtcgcccaaatctcgttgctttgactcgcgctaccactaaattaatatattctgacattgtagcaac gcaaagaactaatcaacctgttgctgctttttatggtatcaaataccttaacccagacaacgaatttacatttaaaactggtgctacttatgctggcgaagctggatatgtagaccgagaacaaat cacagaattaacagaagagtctaaattaactctcaataaaggcgatttattcaaatataataatatcgtttataaagtattagaagatacaccatttgctgatattgaagaaagcgacttagagctg gctcttcagattgcaattgttcttttaaaggttcgtctattttctgacgcagcgtcaacaagcaaatttgaaagctctgatagtgaaattgcggatgctagattccagattaataaatggcaaaccg cggttaaatctcgtaaacttaaaactggcatcacagttgaattagcgcaagatttagaagcaaatggattcgatgctcctaatttcttggaagatttgcttgcaactgaaatggcagatgaaatca ataaagatattctgcaatctttgattacagtgtcaaaacgctataaagttacaggaattactgatagtggattcatcgatttgagttatgcgtctgcacctgaagctggtcgttcattataccgaatg gtatgtgaaattgtttcgcatatccaaaaagaatcaacttatacagcaacgttctgtgttgcttctgctcgtgccgctgcgattcttgctgcatcaggttggttaaaacataaaccagaagatgac aaatatctttcacaaaatgcctacgggttattagctaatggtttaccgctttattgcgatactaacagcccattagattatgtaatcgttggtgtagtagaaaatatcggtgaaaaagaaattgttgg atcaattttctatgctccgtatacagaaggtctcgacttagatgaccctgaacatgtaggcgcatttaaagttgttgttgatccagaaagcttacaaccgtctatcagtttattagttagatatgcttt atcagcaaatccttataccgtagcaaaagatgaaaaagaagcaagagtaattgatggtggagacatggataaaatggcgggtcgttcagatttgtctgttttattaggtgttaaattaccaaaaa ttattattgatgaataa (SEQ ID NO: 449) 39 atgagaactgaggttgtggtgtttactcttcatgagtctggaaagtcattcattgaaattgctcgtgaattaaacttacatgcaaaagaagtggctgtattatgggctcgagctatgactgctaag aataaatttgaaactcgagaaaaagttgtctatagaaaaagacatatcaataaaaaggtgaaaaatggaacagtatgaactttatgaaaatgaatcttttgctaatcaattacgcgaaaaagcat taaaaagtaaacagtttaagctagagtgttttattaaagatttttcggaacttgctaataaagcagctgaacaaggtaaaacatattttagttattatactgctcgcgataaattgattactgaagaa attggtgattggctgagaaaagaaggatttaattttaaagtcaatagtgatcagcgtgatggtgattggttagaaattacattttgaggattaattatgtttaaaaagtagcagtcttgaaaatcatta caactctaaatttattgaaaaactttacagcttgggattgactggcggcgaatgggtagctcgtgaaaagattcacggcacaaatttctcattgattattgagcgtgataaagtaacttgtgctaa acgtactggaccgattcttcctgctgaagatttctttgggtatgaaattattctaaagaattacgctgattccattaaagcagtacaagatattatggaaacctcagcggttgtatcttatcaagtctt tggcgaattcgctggacctggcattcagaagaatgttgattatggcgataaagatttttatgtatttgacattattgtcactacagaaagtggtgatgtgacttatgttgatgattatatgatggaatc attctgtaatacatttaaatttaaaattgctccacttttaggtcgcggtaaatttgaagagcttattaaattgccaaatgatttagattctgtcgtccaagattataattttacagtagaccatgctggatt agttgatgcaaataaatgcgtttggaatgccgaagcaaaaggcgaagtatttactgctgaaggatatgtattgaaaccttgttatccttcttggcttcataatggaaatcgtgtagcaattaaatg caagaattccaaatttagtgaaaagaaaaagtctgataagcctattaaagctaaagttgaactatcagaagctgataacaaattggtgggaattttagcttgttacgttacactgaaccgtgtaaa taacgttatttctaaaattggcgaaattggtccaaaggattttggaaaggtgatggggctaactgttcaagatattttggaagaaacttctcgtgaaggtattactctaactcaagcagataatcct tctttgattaaaaaggaattagttaaaatggtaagatgtacttcgtccagcttggattgagttggtgagctaa (SEQ ID NO: 450) 40 atgatagataaagattatattgcagagctgaaggctcttgatgataacaaagaagctaaagctaaattagctgaatatgctgaacagtttggtataaaggtcaaaaagaataaatcttttgataat atcgttgttgatattgaagaagccctccagaagctcgctagtgaacctatgccagagactgatgggttatctattaaagacttaattgatgctgctgatgccgcagagggattaaaatatgacg atgaagaagtcaatccagaagcagcacttctgattgattctccggttaaatctgacattaaaattgaagtagtagaaacggataaaattcctgaaaataccgatgttttgattgaagatactccttt tgttgaagaaaagtttgaacaagctgtagctgagattattgaatctgaaaagccgtctgtatttactcttccggaaaactttagtccgaatcttcagctgattggaaaaaatccaggattctgcact gttccttggtggatttatcaatggattgctgaaactccggattggaaatctcacccaactagttttgaacatgcgtcagcacaccaaactttatttagcttaatttattacattaaccgcgacggatc agttttaattcgtgaaacacgcaattcttctttcgtaacattaaaataaggataacttatgacttttacagttgatataactcctaaaacaccgacaggggttattgatgaaaccaagcagtttactg ctgcacccagtggtcaaactgaaggtggaactattacctatgcttggagcgtagataatgttccacaagatggagctgaagcaacttttagttatacctgccggtcaaaagactattaaagtag ttgcaacaaatacaattccagaagctgaagctgaaacagcagaagctactacaactatcacagttcaaaataagacacaaacgaccaccttagctgtaactcctaatagccctgacgctgga gtaatcggaaccccagttcaatttactgctgccttagcttctcaacctgatggagcatctgctacgtatcagtggtatgtagatgattcacaagttggtggagaaactaactctacatttagctata ctccaactacaagtggagttaaaaaatcaagtgtgtagctcaagtaaccgcgacagattatgatgcactaagcgttacttctaatgaagtgtcattaacggttaataagaagacaatgaatcca caggttacattgactcctccttctattaacgttcaacaagatgcttcggctacatttactgctaatgttactgatgctccagaagaagcgcaaattacttattcatggaagaaagattcttctcctgta gaagggtcaactaatgtatataccgttgatacttcatctgttggaagtcaaactattgaagtgactgccgtcgttactgctactgattatgatagcaaaacagttaaaacaacaggtcaagttcag gtaactgataaagttgctccagaaccagaaggtgaattaccttatgttcatcctcttccacatcgtacttcagcttacatctggtgcggttggtgggttatggatgaaatccaaaaaatgactgaa gaaggtaaagattggaaaactgaagatccagagtaaatactacctgcatcgttacactcttcagaagatgatgaaagactatccagaagttgatgtccaagaatcgcgtaatggatacatcat tcataaaactgctttagaaactggtatcatctatacctatccataa (SEQ ID NO: 451) 41 atgagattagaagatcttcaagaagaattgaagaaagatgtgtttatagattcaactaaattacagtatgaagcagctaataatgtgatgttatacagtaaatggcttaataagcattcaagtatta aaaaggaaatgcttagaattgacgcacagaaaaaagttgctcttaaagctaaattagactactactcgggacgaggagatggtgatgaatttagtatggatcgttacgagaaatcagaaatga agacagttctatcagcggataaggatgttttaaaggttgatacctcgttacagtattgggggattttattagatttctgtagcggagctcttgatgctatcaaatcacgcggatttgctattaagcat attcaagacatgcgggcatttgaggctggaaaataatgagatatagcattgatgatgcttttaattatgaagaagaatttgaaactgagattcaattcttaatgaaaaagcataatcttaagcgtc aggatattcgtatcctggccgatcacccgtgtggtgaagatgtcctttatattaaaggaaaatttgccggatatcttgatgaatatttttattctaaagatatgggcattgatatgcatatgagagttg tataaatagatataattcagaggagacaatcatgtcagataagatttgtgttgtctgtaaaactccaatcgattctgcattggttgttgaaacagacaaaggtcctgtacatcctgggccttgctat aattacattaaagaactaccagtttcagaaagttcggaagaacaattaaatgaaacacaacttttgctatag (SEQ ID NO: 452) 42 atgtatgaatacaaatttgatgtgagagttggttctaaaataatcaattgtcgcgcattcacgcttaaagaatatctagaacttattactgccaaaaataatggttccgtagaagtaattgttaaaaa gctaatcaaagactgcacaaatgcaaaagatttaaaccgccaagaatcagaactattgctgattcatttatgggcgcattctcttggagaagttaatcacgaaaactcctggaagtgcacctgt ggaactgaaataccaacccatataaatctattacatacacaaatagatgcaccagaagacctctggtatacactgggtgacattaaaattaaattccgataccctaaaatttttgatgataaaaat atagcccacatgatagtatcatgcatagaaacgattcatgctaacggtgaaagcattccagttgaagacttaaatgaaaaagaactagaagatttatattctatcatcacagagtcagatattgt agctataaaagatatgcttttaaagcctaccgtttatttggctgttccaattaaatgtccagagtgtggaaaaacccatgctcatgtaataagaggcctcaaagagttctttgagttactataatgg caaatattaataagctttattctgacattgacccggaaatgaaaatggattggaacaaagatgtttccagatcacttggattaaggtcaattaaaaacagtcttttgggaattattacaacaagaaa aggttcaagaccgtttgaccctgaatttggatgtgatttatcagatcagctttttgaaaatatgactcctcttactgctgacacggttgagcgcaatatcgaaagcgcagtaagaaactatgagc cacgtattgataaattatcagttaatgtgataccagtttatgatgattatactctgatagtagaaatacgcttttcggtcatcgataaccctgatgatattgagcagataaaactgcaactggcttcg agtaatagggtataa (SEQ ID NO: 453) 43 atggcaaacattattcgttgtaaattaccagatggtgttcatcgttttaaaccatttacggtagaagattatcgagattttttgttagttcgaaacgatatagaacatcggtcaccacaagaacaaaa agaaataattactgatttaattgatgattattttggagactatccgaagacttggcaaccatttatatttttgcaggtatttgtagggtcaataggtaaaactaaagtaccggtcacatttgtatgtcca aaatgtaaaaaagaaaagacagttccatttgaaatatatcaaaaagaattaaaggaacctgtttttgatgtagctaatgttaaaattaaattaaagtttccttctgagttttatgaaaataaagcaaa gatgattactgaaaatattcattctgttcaagtagatgaaatatggtatgattggaaggaaattagtgaatcaagccaaatagaacttgttgatgccatcgagatagaaacattagaaaaaattct cgatgcaatgaatcctattaatttaactctacatatgtcatgctgtaataagtacattaaaaaatacactgatatagtagacgtgtttaagctgttagttaacccagatgagatatttactttttatcaa attaatcacacactcgtaaaaagtaattatagcttaaattcaataatgaaaatgattcctgccgagcgcggattcgtattaaaactgattgagaaggataaacaataatgagtatgttgcaacgc cccggatatccaaatctcagcgttaaattatttgatagctacgacgcttggagtaataatagatttgttgaattagctgctactattaccacattaactatgcgggattctctttatggacgaaatga aggaatgctgcagttttatgattctaaaaacatccatacaaaaatggatggaaatgaaataattcagatttctgtagctaatgcaaatgatattaataatgttaaaacacgaatttatggatgtaag catttttccgtgtcagtagattcaaaaggtgataacatcattgctattgaattgggaactattcattctatagaaaatcttaaatttggtagacaatttttccctgatgcaggtgaatctataaaagaaa tgcttggtgtcatttatcaggatcgcacattattaactccagcaataaatgctataaatgcttatgttcctgatattccatggactagcacatttgaaaactatttgtcatatgtaagagaagttgctct agctgtaggaagcgacaaatttgtatttgtatggcaagacatcatgggagttaacatgatggactatgatatgatgataaatcaagaaccatatccaatgattgtcggtgagccatctttaatag gtcaattcatccaagaattaaaatatccattagcatatgatttcgtttggttgactaaatcgaatccttacaaacgtgatccaatgaaaaatgctactatctatgctcattcatttttagattcttcactg ccaatgattactacaggaaagggtgaaaactctattgtagtgtcaagatcaggtgcttattctgaaatgacttataggaatggatatgaagaagctattcgtcttcaaactatggcacaatatgac ggttatgctaaatgttctactgtcggtaattttaacttgactcctggtgttaaaattatttttaatgatagtaaaaaccaatttaaaacagaattttacgttgatgaagttatccatgaattatccaataat aattcagtaactcatctatatatgttcactaatgcaacgaaactggaaacaatagacccagttaaggttaaaaatgaatttaaatctgatactaccactgaagaaagtagttcttccaataagcaa taaagaagtttctattcctaaaatgggtcttaaacattataacattttaaaggatgttaaaggtcctgatgaaaatttaaaacttcttattgattctatttgtccgaatttatcaccggcagaagttgattt cgtttctattcatttattggaatttaatggaaagattaaatctcgtaaagaaatagatggctatacttatgacattaatgatgtttatgtatgccaaagattagaatttcaataccaaggaaatacatttt attttagacctcctggaaaatttgaacaatttttaacggtgagcgatatgttatctaaatgcttgcttaaggtcaacgatgaagttaaagaaattaattttcttgagatgccagcattcgttttaaaatg ggcaaatgatatttttacaactttagcaattcctggccctaatggtccaataaccggaattggcaatattattggattatttgaatgaaaaagccacaagaaatgcaaacgatgcgtagaaaagtt atttcagataataaaccaacacaggaagcggctaaatccgcttctaacactttatctggacttaatgatatatctacgaaattggatgatgctcaagctgcttctgaattaatagctcaaactgtcg aagaaaaatcgaatgaaatagttggagcaattggtaacgtagaaaacgcagtgagtgatactactgccggttctgagttaattgctgaaactgtcgaaattggcaacaatattaataaagaaat cggtgaatcactcggaagcaaattagataaattaacaagtttactagagcaaaaaattcagacagctggaattcaacagactggaactagtttagccacagttgaaagcgctattcctgttaaa gtcgttgaggatgatactgctgaatctgtgggtcctttattaccggctcccgaagcagttaataatgatcctgacgctgattttttccctacccctcagccagttgaacccaaacaagaatcgcc agaagaaaaacagaaaaaagaagcatttaacttaaaattatctcaagctttagataaattaacaaagactgttgattttggatttaagaaatccatttcaattagtgataaaatatcaagcatgttat ttaagtacaccatcagtgctgctattgaagctgctaaaatgactgcaatgatattggctgttgttgttggaatagacctgttgatggttcactttaaatattggtcagataaattttcaaaagcctgg gatttatttaatactgactttactaaattctctagcgaaaccggaacttggggtcctttattacagagcatctttgattctattgataaaattaaacaactttgggaagcgggagattggggtggatt gacagtagctattgttgaagggcttggaaaggttctttataatttaggagaacttattcagcttggaatggctaaattatctgcggcaattcttcgagtcattcctggcatgaaggatactgctgat gaagtagaaggaagagcactagaaaatttccaaaattctactggagcatctctcaataaagaagaccaagaaaaagtagcaaattatcaagataaacgaatgaatggagaccttggcccaa tagcagaaggactagacaaaatctctaactggaaaactcgtgcatctaactggattcgtggtgtagataataaagaagcactgactactgacgaagaacgtgcagcagaagaagaaaaatt aaagcagctttcacctgaagaaagaaaaaatgctttaatgaaggccaatgaagctcgtgccgcgatgattcgttttgaaaaatatgctgattcagctgatatgagtaaagactcaacggttaaa tcagttgaagctgcctatgaagaccttaaacagcggatggatgacccggatttaaataattcgccggcagttaaaaaagaacttgcttctagatttgctaaaattgatgctacttatcaagagct caagaaaaatcagcctaatgccaaacctgaaacttctgctaaatcaccagaagcgaaacaggtccaggttattgaaaagaacaaagcacaacaagctcctgttcaacaagcatctccttca atcaataatactaataatgttattaagaaaaatactgtcgttcataatatgacacctgttacgagcacaactgctcctggtgtatttggcgcgactggagttaattaaggaataatatggcaattgtt aaagaaataactgctgatttaattaaaaagtccggtgagacaatttcagccggacagagcactaaatcagaagtaggaattaaaacatacacagcccagtttccaactgggcgtgctagtgg taatgacactacaggggacttccaggtaacagatctatataagaatggattattatttactgcatacaatatgtcatctagggattctggaagtcttagatcgatgagatctaactactcttcttcat cttcgagtattttacgtacagccagaaacactattagtagtacagtatcaaaactatcaaatggattaatatcaaataataattcaggaacaataagtaaagctcctgtcgcaaacattcttttacc gagatctaaatctgatgttgatacatcatcacatagatttaatgatgttcaagaaagccttatcagtagaggcggaggtactgctactggagtgctaagtaatattgcttcaaccgcagtatttgg ggcgttggaaagtataacacaaggtataatggctgataataatgaacagatttatacgacagccagaagtatgtatggtggtgctgaaaatagaactaaagtgtttacatgggatttaactcca cgttcaacagaagatttaatggctattattaatatctatcaatattttaactatttttcttatggtgaaacgggtaaatctcaatatgctgctgaaataaaggggtatttagatgattggtatcgttctac gttaattgaacctttatctccggaagacgcagctaaaaataaaacactatttgagaaaatgacatcgagtttaactaacgttctagtagtttcaaacccgacggtttggatggtgaaaaactttgg tgcaacatctaagtttgatggaaaaacggaaatatttggtccatgccaaatacagagcatcagatttgataaaacacctaacggtaactttaacggattagctattgctccaaatctccctagtac atttactctcgagattactatgagagaaattatcacgttaaaccgtgcttctttatatgcggggactttttaatgtattctttagaggaatttaataatcaagcaataaacgcagatttccaacgtaata atatgtttagctgcgtttttgcaacaactccatcaactaaaagctcttcgttgataagttcaattagcaacttttcttataataacttgggcctaaattcagattggttaggattaactcaaggtgatatt aatcagggaattacaacgctaattacagctggcacacaaaaactaataagaaaatcgggggttagtaaatatcttattggtgccatgagtcaacgtacagttcaaagtttattaggctcatttac agttggtacatatttaattgacttctttaacatggcatataactcatctggattgatgatatactctgtaaaaatgccagagaatagattatcctatgaaactgattggaactacaactctcctaatatt cgtataactgggagagaattagaccctttggttatttcatttagaatggattcagaatcgtgtaattaccgtgcaatgcaagactgggttaatgctgttcaagacccagtaactggattacgtgct ctgccacaagatgtcgaggcagatatccaggttaatcttcattctcgtaatggattgcctcatactgcggtgatgttcaccggatgtattccagtgtcagtgagcgctcctgagttatcatatgat ggagataaccaaataactacatttgatgttacttttgcgtatagagtcatgcaggctggagcagttgataggcaagctgcgcttgaatggcttgaatctgctgctataaatggtattcaaagctct tctggaaataatggaggtgttactgaactatctagttcgctttcacgacttagtagattaggaggaactgcaggaagcatttcaaacattaatactatgacagggattgtcaattcgcagagtaa aatattaggagcaatataa (SEQ ID NO: 454) 44 atgaaatcttctttgcgctttttaggtcaagaacttgtagttgaaggcgttattcctgctgataatgcttttaacgaagcggtttacgatgaatttattaaaatttttggaacagataaaaagttcggaa tttttccttctgaaaatttttcaaagccagaacagactgaaagcattttccagggtgtagtaacaggtaaatttgagtcagaagctccggtaaaaattgaagtttatattgaagacagtttagttgct tcagtttctgctttcatttcattccgtaaataa (SEQ ID NO: 455) 45 atggaactcattacagaattatttgacgaagatactactcttccgattacaaacttaaatccaaagaagaaaataccacaaattttttcagttcatgttgatgatgcaattgaacaaccaggctttc gtttatgtacctatacatctggaggtgatactaatcgcgatttaaaaatgggcgataaaatgatgcatattgttccttttacattaactgctaaaggttcaattgctaaattaaaaggtcttggtccaa gcccaattaattatatcaattcagtttttactgttgcaatgcaaacaatgcgtcagtataaaattgatgcttgtatgcttcgtattcttaagtctaaaactgctggtcaagctcgacaaattcaagttatt gctgatagacttatccgtagtcgttcaggtggcagatacgtccttcttaaggaactctgggattatgataaaaagtatgcatatattcttatacatcgcaaaaatgtatcactagaagacattccag gagttccggaaattagtaccgagctctttactaaagttgaatcgaaggtcggtgatgtttatatcaataaagatactggagctcaagtaactaaaaacgaggcaattgcagcatctattgcaca agaaaatgataaacgtactgaccaagctgtaatcgttaaagttaaaatttcccgtagagcaattgcgcaaagtcaatcattggaatcttctagatttgaaagtgaattattccagaagtatgaatc taccgcagctaatttcaataagcctgctaccgctcctttaattcccgaagcagaagaaatgaaaattggaattaattcattagcttctaaaacaaaggcagcaaaaattattgccgaaggaact gcgaatgaacttcactatgactataaattcttttcaaaaagtgaggttgatgaagtttctgaaaaaattaaagatgtaatttttaacgcgattaaaaatgaaccaactacttcaataaaatgtttaga gaaatacgcggcagctgtcaatcaattctttgaagaatataaagataattggcttgataaacataataaaactcgtaaagggcagccagatgaagtctggggagaaataactaaaaatgcctg gaatgcagcaaaaactaaattcctcaaacgaatgatttatagtttttctggaattggtgctggtccaatgattgatattactattgcttgtgatggttctaaatatacaccatcacaaaagcgcggta ttagagagtattgtggttcaggatatacagacattaataatcttcttttaggtcgttacaatccagaacgatatgatgtaatgagtgaaaaagaaattgaatctgctataaataatttagattcagctt ttgaaaatggtgaccgcataccggaaggcattacagtttatcgtgctcaaagtatgactgctcctatatacgaagcgctagttaaaaataaagtgttctatttcagaaattttgtatctacttctttaa ctcctatcatttttggacgttttggaattacacatgctggtattggtcttttagaaccagaagctcgcaatgaattaacagttgataaaaatgaagaaggaataactattaatccaaacgaaataag agcgtataaagaaaatcctgaatacgttaaagttcaaataggatgggcaattgatggagctcataaagttaatgttgtatatccaggaagtctcggaatagcaacagaagctgaagttattcta ccgcgcggattgatggtcaaagttaataaaataactgatgcttctaataatgacggaaccacgtctaataatacaaaactcattcaagctgaagttatgaccacagaagaactcaccgaatcg gtaatctatgacggagaccgtttaatggaaaccggcgaagtagttgcaatgacaggtgatattgaaatagaagacagagttgactttgcatcatttgtttcatcaaatgttaaacagaaagtag aatcatctctcggaattattgcgtcttgcatagatattacaaacatgccttacaagttcgttcaaggataaatcatggaacttattacagaattatttgacggcgcttcggcgccggttgttaactta aatcctaagcataaaataccacaaatttttgctattcaagccggcgaagaaagcgtgcttcctggatttagattttgtacatacacctctggtggtgatacaaataaaaacgttaagccaggcga taaaatgatgcatatcgtaatgataggtgtcaacgagaaattatcgctggttaagcttagaaacttgggtggaaatccaattggcgtcattaatgctgtttttgatactgctcttcaaacaatgaaa cagtataaaatcgacgcatgcttattccgcgtactaaaaagtaaaacaaatggcgcagctcgtcaaatgcaagttattgctgaccgtttagtacgtactaaaggagcaggtcgatatgttctttt aaaggaaatctgggactatgataaaaagtatgcatatattatggtttaccgtaaaaatgccaatttagaagacattccaggtgtacctcctatttcaactgagttattcgcaaaagttgaatcgaa ggtcggtgatgtttatgtagatgttaaaacaggtgatgctgttcctaaagctgtcgctgttgctgcttctattgctttagaaaatgataaacgtactgaccaagcggttattcagaaaactaaaatta gtcgtcgattagcagcacaagctcaatattctactgtcgatgcttcacttcagggtgatagcttcgctgccaagaaatatcaagagtttgaatctaaagttccggtatataaagcagaaggacc aatgaactctggcgttattcagattggttcaaacttcagcaaaggagctatcggtggtatgagaagtgcttctcgttttaaatctagcgattatgaactagaaaacttccgaaatcatattgcatta gcccatgcacgtttacgtgatccatctatcaagttacagagcgatataacatatcaaggttctcaagaatatttaaagaataaagaattctttgattataaaactgataaaattttaagtgatcttgct gatattaatatttctaatagctttgatgttattaagaaaattatcaatgatttggttaaaggttctaaagctacgccagatgaaaagacagttattattcaatttgtcatgaatggcatttataaattgatt aatgaatctgctgcccaggcatatgaatatgcaagcactgaagtaactccaaaaggactgactcaggctgagtctgatgtaattgaagattattgtgcagattcatatgttgaaatgaactcgtt ccttttgggtaaaccagattctacccgtgaagaatatatggaacgtgctattaagcacatcgagacgttggattctgcattcgctaaaggttcagttcttcctccaggaactacgctttatcgcgg acaagaagttacctttaaaactttgcgtcacaacattgaaaacaaaatgttctatttcaagaacttcgtatcgacatcacttaaaccaaatatctttggcgagcatggtaaaaactatatggctcta gatgattccggtgcagtattttctggagaaggagaaggttccgttgatgcagaagatttgatgcatatgggtagtcattctacatatgctaatgaagatgctgaaactagcgtgggtatggtaat taaaggagctgagcgaatcaaagttatcgttccaggtcatttatcaggatttccatcagaagctgaagttattctaccgcgtggaattttactgaagattaataaagtaagtacgtactttatgaaa gaaactgcttataacaagtatctaatcgaaggtacaatcgttcctccttctgaacaattagaagaatcagtatatgatggagaccatttaatggaaactggtgaagttcgtccaatggctggattt aatcaattccttgtagaagaatcaaaagaagaggaaaacgaagtttctcaaatattagcttctttggttaacatcaacggaatgtctaaaaagttcaaaatgtag (SEQ ID NO: 456) 46 atgaactacatcaactttgaacgtaaatatgtttctaatggtattgcaggttctattgatactatctgcctttggaaacatcaaaatggatcagtatgcgaaattgaacagtatatgactcctaactat gtttatatgcgatttgaaaatggcatcacggtttcaatcacaatggaaggttccaactttaaaatcgctctggatgatgattttcgtcaacgcgatttagggactcatccttgctggaatggtgcta atcgcaagcttttggttaaaacttggattcgtcatattctgagtaacagagctaaacctgagcatcttgaagcaatctttgatgtagttcttaacgaatttgatatttaa (SEQ ID NO: 457) 47 atggcaaaacaagctaaagcaaagaaagcagttgaaaagaaagttggtgattctaaacgcgctggctacaagcgtgggtcgaactctcgtatcaatcaaactgttgagaagatcatgcgcc gagcacgtgcggttcttcgagatgatgcttctcgttttggtaagcagaaagcataa (SEQ ID NO: 458) 48 atgattaaacaattacaacacgctcttgaactgcaacgaaacgcatggaataatggtcacgaaaactatggcgcatctattgatgttgaagccgaagctcttgaaatcctgcgttatttcaaaca tctgaatcctgctcaaactgcattagctgccgagcttcaggaaaaagatgaacttaaatatgctaagcctctggcttctgccgcgcgaaaagcagttcgtcactttgtggtaacattgaagtaa (SEQ ID NO: 459) 49 atgtctgaagtacaacagctaccaattcgtgctgtcggtgaatatgttattttagtttctgaacctgcacaagccggcgatgaagaagttacagaatcaggacttattatcggtaaacgtgttcaa ggtgaagttcctgaactgtgtgtaattcactctgtcggtcctgatgttcctgaaggtttttgtgaagttggtgatttgacttctcttccagttggtcaaattcgaaacgttccgcatccttttgtagctct gggtcttaagcagccaaaagaaattaaacaaaaattcgttacctgtcattataaagctattccgtgtctttataagtga (SEQ ID NO: 460) 50 atgctgctaagtgaaaaaccgattactgttaaagaattccaagaaaaagttaagctatttgcgcaggaattggtaaataaggtttctgaacgatttcctgaaacatcggttcgtgttattaccgaa actcctcgttcagtattagtaattgtgaatccaggtgatggcgatcaaatatcgcatcttaaactggattttgatggattagttgaagcacaaagggtgtatggcgtactatgatgaatttaactga tataattgataattgtcttgaaaatgatactggcgatcatagagcgcttgactctgaaacagcaaagttcattagaataactttaatgaatgatactctggtgaatagtattcatccttctgtgtatga tgctattattgtgacgaagtatccagttgagcttcataaaaagatgactggcgcagtttttattgataagaaaaaccgctttaaagatgggcagaatataattagttctgttattaaaagtataacta aacttcgtcacgaaatttatcgtgttgaaactgctaaatctgcttatctggtgattatgaaatgaaagcgagtacagtacttcaaattgcatatttagtatcgcaggaatcaaaatgttgctcctgga aggtaggagcagtaattgaaaagaatggacgtattatttctactgggtataatggttcacccgcagggggtgtgaactgttgtgattatgctgctgagcaaggttggttgctgaataagcctaa acatactatcattcaaggccataagcctgaatgcgtatcatttggttcaactgatcgttttgtcttggcgaaagaacatcgtagtgctcactctgaatggtcgtctaaaaatgaaattcatgctgag ctaaatgcaattttgtttgctgcacgaaatggttcttctattgaaggtgctactatgtatgtaacactttctccttgtccagattgtgcaaaagcgatagctcaatctggtattaaaaagctggtttatt gcgaaacatatgataaaaataaacctggctgggatgatattctgcgaaatgcaggtattgaagtgtttaatgttcctaagaaaaacttgaataagttaaactgggaaaatatcaacgaattctgc ggtgaataatgaaatttcgtttggtaaagctcacagcaattagttcttattctaatgagaacatctcgtttgctgtagagtataagaaatattttttctctaaatggaaacagtattataagacaaattg ggtttgtattgataaaccatatagttggaaatctgatttagaaaaattccaaaaattactttccacccttaaagaacgtggaacaactcatattaaaactgtaataggtaaataaatgaaactgaca actgagcagaaagtagcaattcgtgaaattttgaaaactaaattgtccatgggtgtttcaaacgtagtttttgaaaagtctgatggtactattcgtactatgaaaggtactcgtgatgcagactttat gccaaccatgcaaaccggtaaattgactgaatctactcggaaagaatctacggatatgattccagtatttgatgttgaacttggcgcttggcgaggtttttctattgacaaattgatttctgttaatg gtatgaaagttgagcatttgcttcaatttattggtaaataa (SEQ ID NO: 461) 51 atgtttcctacttattctaaaatcgtagaagtagtgtttagccaaattatcgctaataatatgtttgaaaaacttgataacgcagccgagcttcgaatccatgctcaagtgactcatgtattgaacact ttgcttccagaccaggtggattctgttgccattacgctgtatccaggttccgcgcatatcattgttgtattcggtcttgatgctgagctagtcatcaaaggcgatattcgttttgaatcgcagacag cagaattcaaagcaatttaa (SEQ ID NO: 462) 52 atgaaacaataccaagatttaattaaagacatttttgaaaatggctatgaaaccgatgatcgaacaggcacaggaacaattgctttgttcggtactaaattacgctgggatttaagtaaaggtttt cctgcagtaacaactaaaaagctcgcctggaaagcttgcattgctgagctactttggtttttatcaggaagcacaaatgtcaatgatttacgattaattcagcatgattcattaattcaaggcaaa acagtctgggatgaaaattacgaaaatcaagcaaaagatttaggataccatagcggtgaacttggtccaatttatggaaaacagtggcgtgattttggcggtgtagaccaaattgtagaagtt attgatcgtattaaaaaactgccgaatgataggcgacaaattgtttctgcgtggaatccagctgaacttaaatatatggcattaccgccttgtcatatgttctatcagtttaatgtgcgtaatggcta tttggatttgcagtggtatcaacgatcagtagatgtttttcttggtcttccatttaatattgcatcatatgctgcgttagttcatattgtagctaagatgtgtaatcttattcctggagatttgatattttctg gcggtaatactcatatctatatgaatcacgtagaacaatgtaaagaaattttgcgtcgtgaacctaaagagctttgtgagctggtaataagtggtctaccttataaattccgatatctttctactaaa gaacaattaaaatatgttcttaaacttaggcctaaagatttcgttcttaacaactatgtatctcacccgccaattaaaggaaagatggcggtataattttaatttaattgcgaggatatatgattttac gatttaaagatacttctggtgtcgttctttttacacttcctaatccaagcgagttagaagttccaggaccaaatcagcctattatcatttatggcaaaaaatattatactcataaaatgactcgtgagt attttgataataaaatttctacagttaaaacttcttcagattgttactatgatattactgttttaacggaaaaacaatatgacgaattatcgccgcgcgggccgtctatgccaggtagtgaataaatat aaatccgactttgatgttaatattcaccgtggtacattttggggaaattacgtcggtaaagatgctggcagccgggaggctgccattgaattattcaaaaaagattttatacgtcgaattaaatcc ggagaaataactaaagaacatttagagcctttacgtggaatgaggctaggatgcacatgtaaaccaaagccgtgtcatggtgatataatagctcatatagttaaccgattgtttaaagacgattt tcaagttgaggacttatgcaattaattaatgttatcaaaagtagtggtgtttctcagagctttgacccgcaaaaaattattaaagttttatcttgggcagctgaaggaacatctgtagatccttatga attatatgaaaatattaaatcatatctccgtgatggaatgaccactgatgacattcagactattgtcattaaggctgctgcgaattctatttcggttgaagaacctgattatcaatatgtagctgcac gctgtttaatgtttgctcttcgtaaacatgtttatgggcagtatgaaccgcgttcatttattgaccatatttcttactgtgtaaatgaaggtaaatacgaccctgaattgttgtcaaaatattctgcaga agaaattacatttttagaatcaaaaattaagcacgagcgggatatggaatttacttattccggggcgatgcaattaaaagaaaaatatctcgttaaagataaaaccactggtcaaatttatgaaa ctccacagtttgcatttatgactattggaatggcattgcatcaagatgaacctgttgacagattaaaacatgttattcgtttttatgaagcagtatctactcgacagatttcactgccaactcctattat ggctggttgccgtactccaactcggcagtttagttcatgcgttgttattgaagctggtgattcattaaagtcaattaataaagcttctgcttcaattgttgaatatatttctaaacgcgctggaattgg aattaacgttggtatgattcgtgccgaaggttctaagattggcatgggtgaagtacgccatactggtgttattcctttttggaaacattttcagactgctgttaaatcatgttcacagggtggaattc gtggcggcgctgctactgcttattatcctatttggcatttggaagttgaaaatcttctcgttttgaaaaataacaaaggcgtagaagaaaaccgcatccgtcatatggattatggtgttcaactga atgatttgatgatggaacgattcggaaagaacgattacattactttgttcagtccgcatgaaatgggtggagagctgtattattcttattttaaagaccaagaccgtttccgtgaattatacgaagc agcagaaaaagaccctaatattcgtaaaaagcgtattaaagcccgtgaactatttgaattgctcatgactgaacgttcaggaacagcaaggatttatgtgcagttcattgataatacgaataact atactccgtttattcgtgaaaaggcacctattcgtcagagtaacttgtgctgtgaaattgctattccaacaaatgatgtgaatagtcctgatgctgaaattggattgtgtactctctctgcattcgtac tagataattttgactggcaagaccaagataaaattaatgaattggcagaagttcaagttcgtgctcttgataatctgttggattaccaaggatatccagttcctgaagcagaaaaagctaaaaag cgtcgtaaccttggtgtaggtgttactaactatgcagcttggctggcaagtaactttgcttcttatgaagatgctaacgatttaacacatgaactatttgagagattacagtatggactcattaaag catccattaagctcgccaaagaaaaaggaccttgtgaatattattcagacactcgttggtctcgaggcgaattacctatcgactggtacaataaaaagattgaccaaatcgcagctccaaaata cgtttgtgactggtcgtcgctgcgggaagaccttaagctctttggcatccgtaatagcacattatcagcacttatgccatgtgagtcatcttcccaagtttctaacagtacaaacggtatcgagc ctccacgtggaccagtctctgttaaagaatcaaaagagggttcctttaatcaagtcgtgcccaatattgaacataacatagacctatatgattatacatggaaattagctaagaaaggtaataaa ccttatcttacgcaggtagctattatgctgaaatgggtatgtcaatcagcttcagcgaatacatattatgacccgcagatttttccaaaaggaaaggttccaatgtcaataatgattgatgacatgt tatacggatggtattatggcattaaaaatttctattatcataatacccgcgatggttctggtactgatgattatgaaatagaaactccaaaagctgaagattgttcatcctgtaaattatga (SEQ ID NO: 463) 53 atgagattacaacgccaaagcatcaaagattcagaagttagaggtaaatggtattttaatatcatcggtaaagattctgaacttgttgaaaaagctgaacatcttttacgtgatatgggatggga agatgaatgcgatggatgtcctctttatgaagacggagaaagcgcaggattctggatttaccattctgacgtcgagcagtttaaaactgattggaaaattgtgaaaaagtctgtttgaaggaga tgatatgatttttgtatttgaatttatgaatgatgaattcgattatgcaatttttaacgcattgcataatcctgatttaaatgaatttaatgaaatgttttctgacgctttgagtatgtcagaagaatactgc ggagaatgtcaacgtgtttgtgtgacagtctttgaaaacaaagaaaagacgtatgaagaattattctttgacgctaataaagccactgaatggtttattgaaaggggttttgcgtaatgattaaatt ggtattcgcttattctccaactaaaacggtcgaaggctttaatgaattagcattcggtttatgtgatggtttaccatggggacgagttaaaaaggacctccagaattttaaagctcgtactgaagg tacaattatgattatgggtgctaaaacgttccagtcattgtctacattacttcctggtcgtagccatattgtagtatgtgacctcgagcgtgattatcctgaaactaaagacggtgatttagcacattt ctatattacatgggagcagtacataacttacatttctggcggttcaattcaagtgtcaagtcctaatgcaccattcgaggctatgcttgatcagaattctaatgtaagcgtaattggcggacccgc tttgttatatgctgcattaccttgtgcggatgaagtagttgtttctcgcatcgttaaaaggcatcgtgttaattcaacggttcaattagatgcaagttttcttgatgatataagcaagcgtgaaatggtt gaaacccattggtataaaatagatgaagtaacaacccttacggaatcagtgtataaatgaaataacgcgtggcggaaaatatgaactttaattattaccctattctattagaaaaagacgcgaa acaaccaaaatggcagggtcctcagtttattaaaggcgtctatcaattagtagttcctaaagacaagatttatagcagttgtttcactgaatccgcttgcagtattttcggtaatagttctccgtatt ggaattttgatataaaactggatagaaatatcgatatttggttgaaagccatggatattggcaatattacgtttgatgagaataattatcatattattggtcgcttttctaaacgcggtaaagaattat atttcactcctgaaatcgaaagaaaatttgatgctaaaccgtattga (SEQ ID NO: 464) 54 atgtatattggcaaaaagtatgaacttgttccaagacttattgatacatttattaattatcgcccacgttctaattcatcaatagttaaaattattgaagaaaatggcgggtggtttgaagttaaagaa actttctttgttgatggatttagagcaataaaacacattgaatgcgcaaatggaaagcatttttactttaacatttgtgaagatgaatttcattgttttcgtgagtataaagaacagacttctgaagaa gatgaaatcgaagacaaggtttctggcgtaacaaaaattcactgcattgtagacgaaaacaatgtagatgaaatcattgaacttttgcgaaaaactttcaaaaagtag (SEQ ID NO: 465) 55 atggctaaagttgatattgacatcgttgattttgaatatattgaagaaattattcgtaatcgttatcctgaacttagtatcacaagcgtgcaagattctaagttttggagtattcaaatcgttattgaag gtcctcttgaagacctcacccgctttatggctaatgaatattgcgatggtatggattctgaagacgcagaattttacatgggactgattgaacaataa (SEQ ID NO: 466) 56 atgtttaaacgtaaatctactgctgaactcgctgcacaaatggctaaactggctggaaataaaggtggtttttcttctgaagataaaggcgagtggaaactgaaactcgataatgcgggtaacg gtcaagcagtaattcgttttcttccgtctaaaaatgatgaacaagcaccatttgcaattcttgtaaatcacggtttcaagaaaaacggtaaatggtatatcgaaaattgctcatctacccacggtga ttacgattcttgtccagtatgtcagtacatcagtaaaaatgatttgtacaacactgacaataaagagtacggtcttgttaaacgtaaaacttcttactgggctaacattcttgtagtaaaagatccag ctgctccagaaaacgaaggtaaagtatttaaataccgtttcggtaagaaaatctgggataaaatcaatgcaatgattgcagttgatgttgaaatgggtgaaactccggttgatgtaacttgtccg tgggaaggtgctaactttgtactgaaagttaaacaagtttccggatttagtaactacgacgaatctaaattcctgaatcaatctgcgattccaaacattgacgatgaatctttccagaaagaactg ttcgaacaaatggttgacctttctgaaatgacttctaaagataaattcaaatcgttcgaagaactgagcactaagtttagtcaagttatgggaactgctgctatgggtggtgccgcagcgactgc tgctaagaaagctgataaagttgctgatgatttggatgcattcaatgttgatgacttcaatacaaaaactgaagatgattttatgagctcaagctctggcagttcatctagtgctgatgacacgga cctggatgaccttttgaatgacctttaa (SEQ ID NO: 467) 57 atggatttagaaatgatgctggatgaagattacaaagagggaatttgctttattgactttagtcaaattgcgctttcaactgctttagtaaacttcccagataaagaaaaaattaatttatcaatggtt cgtcatttgatattgaactcaattaagtttaatgtcaaaaaagcaaaaacgcttggatacactaaaatcgtgttgtgtattgataacgcgaaatctggatattggcgtcgtgattttgcttattattata agaaaaaccgtggaaaagcacgagaagaatctacttgggactgggaaggttattttgaatccagccataaagttatagatgaattgaaagcttatatgccatacattgttatggatattgataag tatgaagcggatgaccatattgctgttcttgttaaaaagttctctttagaaggacataagattttaatcatttcgtcggatggtgactttacacagcttcacaaatatccaaatgttaagcaatggtct ccaatgcataagaaatgggttaaaattaaaagcggttctgctgaaattgactgtatgactaaaatccttaaaggcgacaaaaaggataacgttgcttcagttaaagtacgatctgacttctggttt accagagttgaaggtgaacgaactccttcaatgaaaacttcaatcgttgaagccattgctaatgaccgtgagcaagctaaggtgcttctcacagaatctgaatataatcgttataaagaaaattt agttctaattgattttgattatattcctgataatattgcttcaaacattgtgaattactataattcatataaattaccaccgcgtggcaaaatttattcatattttgtaaaagcgggtctttctaaattaacta atagcattaatgaattttgaggtgaataatggctaaaaaagaaatggttgaatttgatgaagctatccatggcgaagacttggctaaatttattaaagaagcatctgatcataaactgaaaatttcc ggttataatgaactgattaaagatattcgaattcgtgctaaagatgaacttggcgttgatggtaagatgtttaatcgtctattagctttgtatcataaagataaccgtgatgtgtttgaagctgaaact gaagaggtagttgaactttatgacacagttttctctaaatgatattcgtccggtcgatgagaccggtctttcagaaaaagaactttcaatcaagaaagaaaaggatgaaatagcaaagcttcttg atcgtcaagaaaatggatttattattgaaaaaatggtagaagagtttggaatgagttatcttgaagctacaacagcattcttagaagaaaattctattcctgaaactcaatttgctaaatttattcctt cgggtataattgaaaaaattcagtcagaagctattgacgaaaatcttttacgtccttctgttgttcgctgtgaaaaaactaatacattagattttctactatgattaaattccgcatgcctgctggtgg tgaaagatacattgatggtaaatcagtttataaattatacttaatgataaaacagcatatgaatggaaagtatgatgttattaagtataattggtgcatgcgggtgtctgatgccgcttatcaaaag cgaagggataagtattttttccagaagttatcagaaaaatataaattaaaggaacttgctttaatttttataagtaatttggttgctaaccaagatgcttggattggtgacatctctgacgctgatgca cttgtgttttatcgtgaatatatcggacgcttaaagcaaattaaatttaagtttgaagaagatattcgcaacatttattattttagtaaaaaagttgaagtttctgcttttaaagaaatctttgaatataat ccaaaggttcaatcaagttatatttttaaactgcttcagtcgaatataatttcgtttgaaacgtttatcttgcttgattcgtttttaaatataattgataaacacgatgaacagactgataatttagtctgg aataattattctataaagttaaaggcttatagaaaaattttaaatattgattcacagaaagctaaaaatgttttcattgaaactgtgaaatcttgcaagtattaa (SEQ ID NO: 468) 58 atggccgagattaaaagaaagttcagagcagaagatggtctggacgcaggtggtgataaaataatcaacgtagctttagctgatcgtgccgtaggaactgacggtgttaacgttgattactta attcaagaaaatacagttcaacaatatgatccaactcgtggatatttaaaagattttgtaatcatttatgataaccgcttttgggctgctataaatgatattccaaaaccagcaggagcttttaatag cggacgctggagagcattacgtaccgatgcaaactggattacggtttcatccggttcatatcaattaaaatccggtgaagcaatttcggttaatactgcagctggaaatgacatcacgtttactt taccatcttctccaattgatggtgatactatcgttctccaagatattggaggaaaacccggagttaaccaagttttaattgtagctccagtgcaaagtattgtaaactttagaggtgaacaagtac gttcagtactaatgactcatccaaagtcacagctagttttaatttttagtaatcgtctgtggcaaatgtatgttgctgattatagtagagaagctgtaattgtaacaccagcgaatacttatcaagca caatcaaacgattttatcgtgcatagatttacttctgccgcaccgataaatattaaacttccgagatttgctaatcacggagatattattaatttcgttgatttagataaactaaatccactttatcatac aattgttactacatacgatgaaactacttcaatacaagaagatggaactcattctattgaagaccgtacatcaatcgacggtttcttgatgtttgatgataatgagaaattgtggagattgtttgacg gggacagtaaagcacgtttacgtatcataacgactaattcaaacattcttccaaatgaagaagttatggtatttggtgcgaataacggaacaactcaaacaattgagcttcagcttccaactaat atttctgttggtgatactgttaaaatttccatgaattacatgagaaaaggacaaacagttaaaatcaaagctgctgatgaagataaaattgcttcttcagttcaattactgcaattcccaaaacgctc agaatatccgcctgaagctgaatgggtaactgtccaagaattagtttttaacggtgaaactaattatgttccagttttggagcttgcttatattgaagattctgatggaaaatactgggttgtacag caaaacgttccaaccgtagaaagagtagattctttaaatgattctactagagcaagattaggcgtaattgattagctacacaagctcaagctaacgtcgatttagaaaattctccacaaaaaga attagcaattactccagaaacgttagctaatcgcactgctactgaaactcgcagaggtattgcaagaatagcaactactgctcaagtgaatcagaacaccacattctcttttgctgacgatattat catcactcctaaaaagctgaatgaaagaactgctactgaaactcgcagaggtgttgctgaaattgctacgcagcaagaaactaatacaggtactgatgatactacaatcatcactcctaaaaa gcttcaagcccgtcaaggttctgaatcattatctggtattgtaacttttgtatctactgcaggtgctactccagcttctagccgtgaattaaatggtacgaatgtttataataaaaacactaataattta gttgtttcacctaaagctttggatcagtataaagctactccaacgcagcaaggtgcagtaattttagcagttgaaagtgaagtaattgctggaaaaagtcaggaaggatgggcgaatgctgttg taacgccagaaacgttacataaaaagacatcaactgatggaagaattggtttaattgaaattgctacgcaaagtgaagttaatacaggaactgattatactcgtgcagtcactcctaaaacttta aatgaccgtagagcaactgaaagtttaagtggtatagctgaaattgctacacaagttgaattcgacgcaggcgtcgacgatactcgtatctctacaccattaaaaattaaaaccagatttaata gtactgatcgtacttctgttgttgctctatctggattaattgaatcaggaactctctgggaccattatacccttaatattcttgaagcaaatgagacacaacgtggtacacttcgtgtagctacacaa gttgaagctgctgcaggaaaattagataatgttttaataactcctaaaaagcttttaggtactaaatctaccgaatcgcaagagggtgttattaaagttgcaactcagtctgaagctgtggctgga acgtcagcaaatactgctatatctccaaaaaatttaaaatggattgtgcagagtgaaccttcttggagagcaactactacggtaagagggtttgttaaaacttcgtctggttcaattacattcgttg gtaatgatacagtcggttctacccaagatttagaactttatgagaaaaataattatgcagtatcaccatatgaattaaaccgtgtattagcaaattatttgccgttaaaagcaaaagctgtagatag taatttattggatggtctagattcatcccagttcattcgtagggatattgcacagacggttaatggttcactaaccttaacccaacaaacgaatctgagtgcccctcttgtatcatctagtactgcta cgtttggtggttcagtttcggcaaatagtacattaactatttctaatactggtacgacttcttctcgatttacatttgagaaaggtcctgcttctggtagtaatgctgattctgcattgtatgttcgtgtat ggggtaataagtacagcggcggttctgatgtaactcgtgcaacgattatagaattctctgatgctaccggctctcatttctattctcaaagagatacgtcaaataatgtgttgttcaacatttcagg tacgatgcaatcagtcaacgctagcgttcgtggtgttctgaacgttacaggtgtctcaacgtttaatagttcagttacagccaatggtgaattcatcagtaaatcaccaaatgcttttagagcaat aaatggaaattacggattctttattcgtaatgctggtaatgacacctattttatgctcactgcagcaggtgatcagagcggtggatttaatggattacgtccattatcaattaataatcaatccggtc aggttacgattggtgaaagcttaatcattgccaaaggtgctactataaattcaggtggtttgactgttaactcgagaattcgttctcagggtactaaaacatctgatttatatacccgtgcgccaac atctgatactgtaggattctggtcaatcgatattaatgattcagccacttataaccagttcccgggttattttaaaatggttgaaaaaactaatgaagtgactgggcttccatacttagaacgtggc gaagaagttaaatctcctggtacactgactcagtttggtaatacacttgattcgctttaccaagattggattacttatccaacgacgccagaagcgcgtaccactcgctggacacgtacatggc agaaaaccaaaaactcttggtcaagttttgttcaggtatttgatggtggaaaccctcctcaaccttctgatattggtgctttaccttctgataatgcaacaatcggaaacttgacaataagggattt cttaaggattggtaatgtccgcattattccagaccctgtgaataaatctgttaaattcgagtggattgaataagaggtattatggaaaaatttatggctaagtttggacaaggatacgtccaaacg ccatttttatcggaaagcaattcagtacgatttaaattaagcatagcgggatcttgcccgctttctacagcaggaccatacgttaaatttcaagataatcctgtaggaagtcaaacatttagcgca ggtcttcatttaagagtttttgacccttccaccggagcattagttgatagtaagtcatatgctttttcgacttcaaatgatactacatcagctgcttttgttagcttcatgaattctttgacaaataatag aattgttgctatattaactaacggaaaggttaattttcctcctgaagtagtatcttggttaagaactgcaggaacgtctgcttttccatctgattctatattgtcaagattcgacgtatcatatgctgctt tttatacttcttctaaaagagctattgcattagagcatgttaaactgagtaatagaaaaagcacagatgattatcaaactattttagatgtcgtatttgacagtttagaagatgttggagctaccggg tttccaagaagaacgtatgaaagcgttgagcaatttatgtcagcggttggtggaactaataacgaaatcgcgcgtttaccaacttcggctgctataagtaaattatctgattataatttaattcctg gtgatgttctttatcttaaaacacagctatacgccgatgccgatttacttgctcttggaactacgaatatatccattcgattttataatgcatcaaatggatatatttcctcgacacaagctgaatttac cgggcaagctggtgtttgggaattaaaagaagattatgtagttgttccagaaaatgcagtaggatttacgatatatgcacaaagaactgcacaagctggtcaaggtggaatgaggaacttaa gcttttctgaggtatcaagaaatggtagtatttcgaaacccgctgaatttggtgtcaatggtattcgagttaattatgtctgtgaatctgcttcacctccggatataatggtacttcctacacaagcat cgtctaaaactggtaaagtgtttgggcaagaatttagagaagtataa (SEQ ID NO: 469) 59 atgtttactacagctgaactaaaacgagcaaaagctaagaaagggcaaggaaaatataaagctgaattagttaaagaacttcagtttgctgaggctgaattgaattcaatgattattcaaaatg ctccagaaactgaaattgctcttaaacgtattgcgaataagtgtcttcgtgatgcaatcgtcgatcttttagcggattattgagtaaaatgaaaatcgttgagattgaactatgagttcattatggtg gtgttttgtttggttaattagtattccattaatttgtttaacatttacttttgtgatgaggttattatgaaaatttttaattctgtacttattgcttgtgcgtggtgggttgcacaagtttcggcagtagtgattg gtattcacatttattacgaatatttttaa (SEQ ID NO: 470) 60 atgtacaatattaaatgcctgaccaaaaacgaacaagctgaaattgttaaactgtattcaagtggtaattacacccaacaggaattggctgattggcaaggtgtatcggttgacacaatccgtc gtgttttgaaaaatgctgaagaagctaaacgccctaaagttactattagcggtgatattacagttaaagttaatagcgatgcagttattgctccagttgctaaatctgacattatttggaatgcatct aaaaaattcatttcaattactgttgacggtgtaacttataacgcaactcctaatactcattcaaactttcaggaaattcttaatctgcttgtagcggataagctggaagaagctgcgcaaaaaatta atgttcgtcgcgctgttgaaaaatatatttccggcgatgttcgaattgaaggtggaagcttgttctatcaaaatattgaattgcggtctggtttggttgatcgtattcttgactcgacggaaaaagg cgaaaactttgaattttattttccgttcttggaaaatctgctggaaaacccaagccaaaaagcggtatctcgactctttgatttcttggtagcaaacgatattgaaatcaccgaagatggttacttct atgcttggaaagtagttcgtgacaactactttgactgtcactcaaacacctttgataacagtccgggtaaagtagttaaaatgccacgtactcgtgtgaatgacgatgatacacaaacttgttctc gtggtctgcatgtgtgttctaaatcttatattcgtcactttggcagttcaaccagtcgagttgtaaaagttaaagtacatccgcgtgatgtagtatcaattccgattgattacaacgatgctaaaatg cgtacctgccaatacgaagtagttgaagacgttactgaacaatttaaataagggcttcggcccttatcatattaaggaaaattatgttaggttatcaagcacgagtaaaagaagaatacgatca attaatgctcaaaattaatgcactgagtaaatttttagaaagcacaaagtttctaacggttagtgcagttgagcaagaactgctactttcgcagtttatctcaatgaaatcttatgctgagtgtctag agaaaagaattgcgcaattcaaataa (SEQ ID NO: 471)

Various modifications and variations of the described methods, pharmaceutical compositions, and kits of the invention will be apparent to those skilled in the art without departing from the scope and spirit of the invention. Although the invention has been described in connection with specific embodiments, it will be understood that it is capable of further modifications and that the invention as claimed should not be unduly limited to such specific embodiments. Indeed, various modifications of the described modes for carrying out the invention that are obvious to those skilled in the art are intended to be within the scope of the invention. This application is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the invention and including such departures from the present disclosure come within known customary practice within the art to which the invention pertains and may be applied to the essential features herein before set forth. 

1. An engineered system comprising an ATPase and an adenosine deaminase wherein the ATPase and the adenosine deaminase are derived from same or different prokaryotes.
 2. The engineered system of claim 1, wherein the ATPase comprises a sequence of WP_012906049.1 or WP_155731552.1, and the adenosine deaminase comprises a sequence of WP_012906048.1 or WP_064360593.1.
 3. The engineered system of claim 1, wherein the ATPase comprises 1100 or less amino acid residues.
 4. The engineered system of claim 1, wherein the adenosine deaminase comprises 1100 or less amino acid residues.
 5. The engineered system of claim 1, further comprising a membrane protein.
 6. The engineered system of claim 5, wherein the membrane protein comprises a SLATT domain or Csx27.
 7. The engineered system of claim 1, wherein the system is configured to modify a target nucleic acid.
 8. The engineered system of claim 7, wherein the target nucleic acid is RNA.
 9. The engineered system of claim 7, wherein modification of the target nucleic acid comprises causing an A to G mutation in the target nucleic acid.
 10. The engineered system of claim 1, further comprising one or more phage proteins.
 11. The engineered system of claim 10, wherein the one or more phage proteins are in Tables 18A-18B.
 12. An engineered system comprising one or more reverse transcriptases comprising one or more UG1, UG2, UG3, UG8, UG15, or UG16 reverse transcriptase.
 13. The engineered system of claim 12, comprising a first and a second reverse transcriptase.
 14. The engineered system of claim 13, wherein the first and the second reverse transcriptases are comprised in a protein.
 15. The engineered system of claim 12, further comprising: a SLATT domain; a DNA polymerase; a family A DNA polymerase; a serine protease domain linked to or associated with the one or more reverse transcriptases; an MBL domain; a nitrilase; a nitrilase, wherein the nitrilase and the one or more reverse transcriptases are comprised in a protein, and the nitrilase is at a C-terminus of the protein; or a protease.
 16. (canceled)
 17. (canceled)
 18. (canceled)
 19. (canceled)
 20. (canceled)
 21. (canceled)
 22. (canceled)
 23. The engineered system of claim 12, wherein the one or more reverse transcriptase comprises (Y/F)XDD (SEQ ID NOS: 1-2), wherein X is any amino acid.
 24. An engineered system comprising a retron or one or more molecules encoded by the retron.
 25. The engineered system of claim 24, wherein the retron is an Ec67 retron, Ec86 retron, or Ec78 retron.
 26. (canceled)
 27. (canceled)
 28. The engineered system of claim 24, wherein the retron is a Tol/interleukin 1 (TIR) domain-associated retron.
 29. The engineered system of claim 28, wherein the TIR domain has NAD+ hydrolase activity.
 30. The engineered system of claim 24, wherein the retron is a topoisomerase-primase (TOPRIM) domain-associated retron.
 31. The engineered system of claim 30, wherein the TOPRIM domain has nuclease activity.
 32. An engineered system comprising: an NTPase of a STAND (signal transduction ATPases with numerous associated domains) superfamily; an NTPase of a STAND superfamily, DUF4297, Mrr-like nuclease, SIR2, a trypsin-like serine protease, and/or a helical domain; von Willebrand factor (VWF), a PP2C-like serine/threonine protein phosphatase, and a serine/threonine kinase; SIR2; transmembrane ATPase; ATPase, QueC synthase n, and TatD endonuclease; S8 peptidase; DUF4011, a helicase, and a Vsr endonuclease; a silent information regulator (SIR)2-DUF4020; SIR2-STAND-TPR; a Polymerase and Histidinol Phosphatase (PHP)-ATPase; SIR2 and HerA; DUF1887; DUF499, DUF3780, and DUF1156 methyltransferase and a helicase; a Type I-E CRISPR-associated ATPase; or ApeA.
 33. (canceled)
 34. (canceled)
 35. (canceled)
 36. (canceled)
 37. (canceled)
 38. (canceled)
 39. (canceled)
 40. (canceled)
 41. (canceled)
 42. (canceled)
 43. (canceled)
 44. (canceled)
 45. (canceled)
 46. (canceled)
 47. (canceled)
 48. (canceled)
 49. The system of claim 1, wherein the system comprises two proteins fused together.
 50. The system of claim 1, comprising one or more components in a retrotransposon system.
 51. A polynucleotide comprising coding sequences for one or more proteins in the system of claim
 1. 52. A vector comprising a polynucleotide of claim
 51. 53. A cell comprising the polynucleotide of claim
 51. 54. A method of identifying a defense system in a microorganism, the method comprising: identifying genes of known defense systems in a plurality of genomes of the microorganism; recording candidate genes located within 10 kb or 10 open reading frames from the identified genes of known defense systems in the genomes; identifying homologs of each candidate gene in the genomes; and selecting candidate genes wherein at least 10% of homologs of the candidate genes are within 5000 nucleotides or 5 genes from one or more known defense systems on the genomes.
 55. The method of claim 54, wherein identifying genes of known defense systems comprises identifying known defense genes and filtering false positive hits among the identified known defense genes.
 56. The method of claim 54, further comprising validating the selected candidate genes.
 57. The method of claim 54, wherein the homologs of the candidate genes share at least 70% sequence identity with the candidate genes and/or the homologs have an E-value of 10⁻⁵ or lower.
 58. The method of claim 54, wherein the recorded candidate genes are within 10 kb from the identified genes of known defense systems on the genomes.
 59. The method of claim 54, wherein at least 15% of homologs of the selected candidate genes are within 5000 nucleotides or 5 genes from one or more known defense systems on the genomes.
 60. The method of claim 54, wherein the plurality of genomes comprises at least 100,000 genomes.
 61. The method of claim 54, wherein the known defense systems comprise one or more of a CRISPR system, Type I RM and McrBC system, BREX-associated system, Zorya system, Wadjet system, Druantia-associated system, Hachiman system, Lamassu system, Thoeris-like system, Gabija system, Septu system, pAgo system, Shedu system, Kiwa system, DUF499-DUF1156 system, and Toxin/antitoxin system.
 62. The method of claim 54, wherein the microorganism is E. coli. 